Abstract

We demonstrate an optically pumped magnetometer (OPM) operated in a free-induction-decay (FID) configuration that is capable of tracking oscillating magnetic signals in the presence of a 50 μT static field. Excellent waveform reconstruction is demonstrated for low frequency modulations with respect to the Nyquist limited bandwidth. A 100 pT oscillation was successfully reconstructed using signal averaging, and an optimum sensitivity of 3.9pT/Hz was measured from the spectrum of the residuals relative to the sinusoidal fit. The impact of the pump-probe repetition rate and spin depolarization on the frequency response of the sensor is investigated in detail using miniaturized vapor cell technology, with the (−3 dB) bandwidths residing beyond the Nyquist limit in each case. We also discuss technical limitations associated with the magnetometer when exposed to oscillating fields of sufficiently high amplitude or frequency. This is discussed in the context of potential distortions arising in the reproduced signals, induced by frequency modulation (FM) and aliasing artefacts.

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References

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2018 (1)

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

2017 (1)

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
[Crossref]

2015 (3)

Z. D. Grujić, P. A. Koss, G. Bison, and A. Weis, “A sensitive and accurate atomic magnetometer based on free spin precession,” The Eur. Phys. J. D 69, 135 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

2014 (1)

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
[Crossref]

2013 (1)

D. Sheng, S. Li, N. Dural, and M. Romalis, “Subfemtotesla scalar atomic magnetometry using multipass cells,” Phys. review letters 110, 160802 (2013).
[Crossref]

2012 (1)

R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

2011 (1)

T. Scholtes, V. Schultze, R. IJsselsteijn, S. Woetzel, and H.-G. Meyer, “Light-narrowed optically pumped Mx magnetometer with a miniaturized Cs cell,” Phys. Rev. A 84, 043416 (2011).
[Crossref]

2010 (1)

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

2006 (3)

H. Xia, A. Ben-Amar Baranga, D. Hoffman, and M. Romalis, “Magnetoencephalography with an atomic magnetometer,” Appl. Phys. Lett. 89, 211104 (2006).
[Crossref]

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
[Crossref]

H. Korsch, A. Klumpp, and D. Witthaut, “On two-dimensional Bessel functions,” J. Phys. A: Math. Gen. 39, 14947 (2006).
[Crossref]

Afach, S.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Baker, C. A.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Ban, G.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Ben-Amar Baranga, A.

H. Xia, A. Ben-Amar Baranga, D. Hoffman, and M. Romalis, “Magnetoencephalography with an atomic magnetometer,” Appl. Phys. Lett. 89, 211104 (2006).
[Crossref]

Bison, G.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Z. D. Grujić, P. A. Koss, G. Bison, and A. Weis, “A sensitive and accurate atomic magnetometer based on free spin precession,” The Eur. Phys. J. D 69, 135 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
[Crossref]

Bodek, K.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Brockie, N.

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

Budker, D.

D. Budker and D. F. J. Kimball, Optical magnetometry (Cambridge University, 2013).
[Crossref]

Chowdhuri, Z.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Daum, M.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Deans, C.

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
[Crossref]

Dural, N.

D. Sheng, S. Li, N. Dural, and M. Romalis, “Subfemtotesla scalar atomic magnetometry using multipass cells,” Phys. review letters 110, 160802 (2013).
[Crossref]

Dyer, T.

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

Fertl, M.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Franke, B.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Geltenbort, P.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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Gori, L.

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
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S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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Griffith, C.

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
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Griffith, W. C.

R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
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Groeger, S.

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
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S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Grujic, Z. D.

Harris, P. G.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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Hayen, L.

Heil, W.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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Hélaine, V.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
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S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
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Hussain, S.

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
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Iaydjiev, P.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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IJsselsteijn, R.

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
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S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
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Jiménez-Martínez, R.

R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

Kasprzak, M.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Kermaïdic, Y.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
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Kirch, K.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Kitching, J.

R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
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R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
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Knowles, P.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Knowles, P. E.

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
[Crossref]

Koch, H.-C.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Komposch, S.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Korsch, H.

H. Korsch, A. Klumpp, and D. Witthaut, “On two-dimensional Bessel functions,” J. Phys. A: Math. Gen. 39, 14947 (2006).
[Crossref]

Koss, P. A.

Z. D. Grujić, P. A. Koss, G. Bison, and A. Weis, “A sensitive and accurate atomic magnetometer based on free spin precession,” The Eur. Phys. J. D 69, 135 (2015).
[Crossref]

Kozela, A.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Krempel, J.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Lauss, B.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Lefort, T.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Lemière, Y.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
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Li, S.

D. Sheng, S. Li, N. Dural, and M. Romalis, “Subfemtotesla scalar atomic magnetometry using multipass cells,” Phys. review letters 110, 160802 (2013).
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Liew, L.-A.

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
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Marmugi, L.

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
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Meyer, H.-G.

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
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T. Scholtes, V. Schultze, R. IJsselsteijn, S. Woetzel, and H.-G. Meyer, “Light-narrowed optically pumped Mx magnetometer with a miniaturized Cs cell,” Phys. Rev. A 84, 043416 (2011).
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Moreland, J.

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
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Mtchedlishvili, A.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Naviliat-Cuncic, O.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Pendlebury, J. M.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Piccolomo, S.

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

Piegsa, F. M.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Pignol, G.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Prashant, P. N.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Prashanth, P. N.

Preusser, J.

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
[Crossref]

Pritchard, J.

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

Prouty, M.

R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

Prouty, M. D.

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

Quéméner, G.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Rawlik, M.

Rebreyend, D.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Renzoni, F.

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
[Crossref]

Ries, D.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Riis, E.

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

Roccia, S.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Romalis, M.

D. Sheng, S. Li, N. Dural, and M. Romalis, “Subfemtotesla scalar atomic magnetometry using multipass cells,” Phys. review letters 110, 160802 (2013).
[Crossref]

H. Xia, A. Ben-Amar Baranga, D. Hoffman, and M. Romalis, “Magnetoencephalography with an atomic magnetometer,” Appl. Phys. Lett. 89, 211104 (2006).
[Crossref]

Rozpedzik, D.

Schmidt-Wellenburg, P.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Scholtes, T.

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
[Crossref]

T. Scholtes, V. Schultze, R. IJsselsteijn, S. Woetzel, and H.-G. Meyer, “Light-narrowed optically pumped Mx magnetometer with a miniaturized Cs cell,” Phys. Rev. A 84, 043416 (2011).
[Crossref]

Schultze, V.

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
[Crossref]

T. Scholtes, V. Schultze, R. IJsselsteijn, S. Woetzel, and H.-G. Meyer, “Light-narrowed optically pumped Mx magnetometer with a miniaturized Cs cell,” Phys. Rev. A 84, 043416 (2011).
[Crossref]

Schwindt, P.

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
[Crossref]

Severijns, N.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Severjins, N.

Shah, V.

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
[Crossref]

Sheng, D.

D. Sheng, S. Li, N. Dural, and M. Romalis, “Subfemtotesla scalar atomic magnetometry using multipass cells,” Phys. review letters 110, 160802 (2013).
[Crossref]

Smith, K.

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

van der Grinten, M. G. D.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Wang, Y.-J.

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

Weis, A.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Z. D. Grujić, P. A. Koss, G. Bison, and A. Weis, “A sensitive and accurate atomic magnetometer based on free spin precession,” The Eur. Phys. J. D 69, 135 (2015).
[Crossref]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
[Crossref]

Witthaut, D.

H. Korsch, A. Klumpp, and D. Witthaut, “On two-dimensional Bessel functions,” J. Phys. A: Math. Gen. 39, 14947 (2006).
[Crossref]

Woetzel, S.

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
[Crossref]

T. Scholtes, V. Schultze, R. IJsselsteijn, S. Woetzel, and H.-G. Meyer, “Light-narrowed optically pumped Mx magnetometer with a miniaturized Cs cell,” Phys. Rev. A 84, 043416 (2011).
[Crossref]

Wursten, E.

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Wynands, R.

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
[Crossref]

Wyszynski, G.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Xia, H.

H. Xia, A. Ben-Amar Baranga, D. Hoffman, and M. Romalis, “Magnetoencephalography with an atomic magnetometer,” Appl. Phys. Lett. 89, 211104 (2006).
[Crossref]

Zejma, J.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Zenner, J.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Zsigmond, G.

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

S. Afach, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, Z. D. Grujić, L. Hayen, V. Hélaine, M. Kasprzak, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, F. M. Piegsa, P. N. Prashanth, G. Quéméner, M. Rawlik, D. Ries, S. Roccia, D. Rozpedzik, P. Schmidt-Wellenburg, N. Severjins, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, and G. Zsigmond, “Highly stable atomic vector magnetometer based on free spin precession,” Opt. Express 23, 22108–22115 (2015).
[Crossref] [PubMed]

Appl. optics (1)

L. Marmugi, L. Gori, S. Hussain, C. Deans, and F. Renzoni, “Remote detection of rotating machinery with a portable atomic magnetometer,” Appl. optics 56, 743–749 (2017).
[Crossref]

Appl. Phys. B (1)

T. Scholtes, S. Woetzel, R. IJsselsteijn, V. Schultze, and H.-G. Meyer, “Intrinsic relaxation rates of polarized Cs vapor in miniaturized cells,” Appl. Phys. B 117, 211–218 (2014).
[Crossref]

Appl. Phys. Lett. (1)

H. Xia, A. Ben-Amar Baranga, D. Hoffman, and M. Romalis, “Magnetoencephalography with an atomic magnetometer,” Appl. Phys. Lett. 89, 211104 (2006).
[Crossref]

IEEE Trans. Instrum. Meas. (1)

R. Jiménez-Martínez, W. C. Griffith, Y.-J. Wang, S. Knappe, J. Kitching, K. Smith, and M. D. Prouty, “Sensitivity comparison of Mx and frequency-modulated Bell–Bloom Cs magnetometers in a microfabricated cell,” IEEE Trans. Instrum. Meas. 59, 372–378 (2010).
[Crossref]

J. Phys. A: Math. Gen. (1)

H. Korsch, A. Klumpp, and D. Witthaut, “On two-dimensional Bessel functions,” J. Phys. A: Math. Gen. 39, 14947 (2006).
[Crossref]

JOSA B (1)

R. Jiménez-Martínez, W. C. Griffith, S. Knappe, J. Kitching, and M. Prouty, “High-bandwidth optical magnetometer,” JOSA B 29, 3398–3403 (2012).
[Crossref]

Opt. Express (1)

Phys. Rev. A (1)

T. Scholtes, V. Schultze, R. IJsselsteijn, S. Woetzel, and H.-G. Meyer, “Light-narrowed optically pumped Mx magnetometer with a miniaturized Cs cell,” Phys. Rev. A 84, 043416 (2011).
[Crossref]

Phys. Rev. Appl. (1)

D. Hunter, S. Piccolomo, J. Pritchard, N. Brockie, T. Dyer, and E. Riis, “Free-induction-decay magnetometer based on a microfabricated Cs vapor cell,” Phys. Rev. Appl. 10, 014002 (2018).
[Crossref]

Phys. review letters (1)

D. Sheng, S. Li, N. Dural, and M. Romalis, “Subfemtotesla scalar atomic magnetometry using multipass cells,” Phys. review letters 110, 160802 (2013).
[Crossref]

Sens. Actuator A-Phys. (1)

S. Groeger, G. Bison, P. E. Knowles, R. Wynands, and A. Weis, “Laser-pumped cesium magnetometers for high-resolution medical and fundamental research,” Sens. Actuator A-Phys. 129, 1–5 (2006).
[Crossref]

The Eur. Phys. J. D (2)

Z. D. Grujić, P. A. Koss, G. Bison, and A. Weis, “A sensitive and accurate atomic magnetometer based on free spin precession,” The Eur. Phys. J. D 69, 135 (2015).
[Crossref]

S. Afach, C. A. Baker, G. Ban, G. Bison, K. Bodek, Z. Chowdhuri, M. Daum, M. Fertl, B. Franke, P. Geltenbort, K. Green, M. G. D. van der Grinten, Z. Grujic, P. G. Harris, W. Heil, V. Hélaine, R. Henneck, M. Horras, P. Iaydjiev, S. N. Ivanov, M. Kasprzak, Y. Kermaïdic, K. Kirch, P. Knowles, H.-C. Koch, S. Komposch, A. Kozela, J. Krempel, B. Lauss, T. Lefort, Y. Lemière, A. Mtchedlishvili, O. Naviliat-Cuncic, J. M. Pendlebury, F. M. Piegsa, G. Pignol, P. N. Prashant, G. Quéméner, D. Rebreyend, D. Ries, S. Roccia, P. Schmidt-Wellenburg, N. Severijns, A. Weis, E. Wursten, G. Wyszynski, J. Zejma, J. Zenner, and G. Zsigmond, “Measurement of a false electric dipole moment signal from 199 Hg atoms exposed to an inhomogeneous magnetic field,” The Eur. Phys. J. D 69, 225 (2015).
[Crossref]

Other (4)

D. Budker and D. F. J. Kimball, Optical magnetometry (Cambridge University, 2013).
[Crossref]

J. Kitching, S. Knappe, V. Shah, P. Schwindt, C. Griffith, R. Jimenez, J. Preusser, L.-A. Liew, and J. Moreland, “Microfabricated atomic magnetometers and applications,” in Frequency Control Symposium, 2008 IEEE International, (IEEE, 2008), pp. 789–794.
[Crossref]

N. E. Jacobsen, NMR spectroscopy explained: simplified theory, applications and examples for organic chemistry and structural biology (John Wiley & Sons, 2007).
[Crossref]

D. Hunter, R. Jiménez-Martínez, J. Herbsommer, S. Ramaswamy, W. Li, and E. Riis, Data for: “Waveform reconstruction with a Cs based free-induction-decay magnetometer”, University of Strathclyde, https://doi.org/10.15129/61312697-3649-4655-bbc8-91cf1afebb14 (2018).

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Figures (4)

Fig. 1
Fig. 1 Experimental set-up for an amplitude-modulated FID magnetometer with a microfabricated Cs vapor cell containing N2 buffer gas at a pressure of 165 Torr [10]. Amplitude modulation is accomplished using the first order deflection of an acousto-optic modulator (AOM). DC and AC components of the applied time-varying magnetic fields, orthogonal to the beam axis, are generated using two independent sets of Helmholtz coils. Detection of the time-dependent optical rotation angle is performed using a balanced polarimeter and is recorded on an oscilloscope. The pump-probe sequence illustrates the sampling procedure of the FID technique. (PBS: polarising beam splitter, HWP: half-wave plate, GT: Glan-Thompson polarizer, QWP: quarter-wave plate, GW: glass window, M: mirror, L: lens, PD: photodiode.)
Fig. 2
Fig. 2 (a) An applied 7 nT sinusoidal modulation oscillating at fm = 20 Hz was reconstructed by the magnetometer at a repetition rate of fd = 1 kHz over a period of 25 s. Fit residuals for a 100 ms portion of the reconstructed waveform (blue trace), and for a weighted average of 247 similar segments (red trace). The standard deviation of the fluctuations are 112.6 pT and 11.7 pT for the single-shot and averaged waveforms, respectively. (b) Single-shot measurement residuals, over a period of 1 s, converted to the frequency domain. The dot-dashed line is an indication of the optimum sensitivity of the device at 3.9 pT / Hz. (c) Reconstructed waveform (208 averages) of a 100 pT magnetic field perturbation oscillating at 83.3 Hz. The standard deviation of the fit (black line) residuals was calculated to be 8.7 pT.
Fig. 3
Fig. 3 (a) Linearity of the detector observed by measuring the peak-to-peak frequency deviation at a range of field modulation amplitudes using fm = 10 Hz, fm = 491 Hz, and fm = 965 Hz represented by the blue, red and green data points, respectively. The solid lines are linear fits to the data. (b) Linear fit residuals. (c) Frequency response of a FID magnetometer using different experimental parameters as noted in the legend. Data points with frequencies above the Nyquist limit are folded back within the detectable bandwidth through aliasing. Interpolation has been utilized as a guide for the eye allowing extraction of the (−3 dB) bandwidths, estimated to be 671 Hz, 975 Hz and 1.1 kHz for the green, blue and red data sets, respectively. The size of the markers are larger than the corresponding error bars in both (a) and (c) and have hence been omitted.
Fig. 4
Fig. 4 (a) Top: oscillating component of the magnetic field (blue line) generated by the modulation coils, aliased reconstructed waveform (red crosses), and corresponding fit to a sinusoidal model (black line). Bottom: time series of a FID signal train (green trace). (b) Snapshots of frequency modulated FID spectra (black dots) and their associated best fits converted to the frequency domain (red lines). The numbers (top left) refer to the corresponding time-domain signals that are highlighted by a grey background.

Equations (5)

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S ( t ) = g M x ( t ) + n ( t ) ,
M x ( t ) = A e γ 2 t sin ( ω L t + ϕ 0 ) ,
M x ( t ) = A e γ 2 t sin ( ω 0 t + ϕ 0 + γ 0 t B ( τ ) d τ ) ,
M x ( t ) = A e γ 2 t sin [ ω 0 t + ϕ 0 + β sin ( ω m t + ϕ m ) ] ,
M x ( t ) = A e γ 2 t n = J n ( β ) sin [ ( ω 0 + n ω m ) t + ϕ 0 + n ϕ m ] ,

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