Abstract

Integrated optics has distinct advantages for applications in space because it integrates many elements onto a monolithic, robust chip. As the development of different building blocks for integrated optics advances, it is of interest to answer the important question of their resistance with respect to ionizing radiation. Here we investigate effects of proton radiation on high-Q (𝒪(106)) silicon nitride microresonators formed by a waveguide ring. We show that the irradiation with high-energy protons has no lasting effect on the linear optical losses of the microresonators.

© 2014 Optical Society of America

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References

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2013 (2)

Q.-F. Chen, A. Nevsky, S. Schiller, E. P. Campa, S. Lecomte, and D. Parker, “Proton irradiation robustness of dielectric mirrors for high-finesse Fabry-Pérot resonators in the near-infrared spectral range,” Appl. Phys. B 116, 1–7 (2013).

D. J. Moss, R. Morandotti, A. L. Gaeta, and M. Lipson, “New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics,” Nat. Photonics 7, 597–607 (2013).
[Crossref]

2012 (4)

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
[Crossref]

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

J. Riemensberger, K. Hartinger, T. Herr, V. Brasch, R. Holzwarth, and T. J. Kippenberg, “Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition,” Opt. Express 20, 27661–27669 (2012).
[Crossref] [PubMed]

2011 (2)

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

D. L. Griscom, “Trapped-electron centers in pure and doped glassy silica: A review and synthesis,” J. Non-Cryst. Solids 357, 1945–1962 (2011).
[Crossref]

2010 (1)

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
[Crossref]

2009 (2)

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
[Crossref]

2004 (3)

T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Kerr-nonlinearity optical parametric oscillation in an ultrahigh-Q toroid microcavity,” Phys. Rev. Lett. 93, 83904 (2004).
[Crossref]

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

T. Barwicz, M. Popović, P. Rakich, M. Watts, H. Haus, E. Ippen, and H. Smith, “Microring-resonator-based add-drop filters in SiN: fabrication and analysis,” Opt. Express 12, 1437–1442 (2004).
[Crossref] [PubMed]

2003 (1)

G. Naletto, A. Boscolo, J. Wyss, and A. Quaranta, “Effects of proton irradiation on glass filter substrates for the Rosetta mission,” Appl. Optics 42, 3970–3980 (2003).
[Crossref]

2002 (3)

V. Passaro and M. Armenise, “Neutron and gamma radiation effects in proton exchanged optical waveguides,” Opt. Express 10, 960–964 (2002).
[Crossref] [PubMed]

T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Modal coupling in traveling-wave resonators,” Opt. Lett. 27, 1669–1671 (2002).
[Crossref]

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
[Crossref]

2000 (2)

1993 (3)

H. Henschel, O. Koehn, and H. U. Schmidt, “Radiation-induced transmission loss of integrated optic waveguide devices,” Proc. SPIE 1794, 79–90 (1993).
[Crossref]

T. P. Appourchaux, “Effect of space radiations on optical filters,” Proc. SPIE 2018, 80–91 (1993).
[Crossref]

D. L. Griscom, M. E. Gingerich, and E. J. Friebele, “Radiation-induced defects in glasses: Origin of power-law dependence of concentration on dose,” Phys. Rev. Lett. 71, 1019–1022 (1993).
[Crossref] [PubMed]

1979 (1)

M. T. Shetter and V. J. Abreu, “Radiation effects on the transmission of various optical glasses and epoxies,” Appl. Optics 18, 1132–1133 (1979).
[Crossref]

1977 (1)

W. Stutius and W. Streifer, “Silicon nitride films on silicon for optical waveguides,” Appl. Optics 16, 3218–3222 (1977).
[Crossref]

Abou-Jaoudeh, C.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Abreu, V. J.

M. T. Shetter and V. J. Abreu, “Radiation effects on the transmission of various optical glasses and epoxies,” Appl. Optics 18, 1132–1133 (1979).
[Crossref]

Alighanbari, S.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Altschul, B.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Appourchaux, T. P.

T. P. Appourchaux, “Effect of space radiations on optical filters,” Proc. SPIE 2018, 80–91 (1993).
[Crossref]

Arcizet, O.

P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
[Crossref]

Armenise, M.

Assmann, W.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

Bailey, Q. G.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Barton, J. S.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

Barwicz, T.

Barwood, G.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Berghmans, F.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

F. Berghmans, B. Brichard, A. Fernandez, A. Gusarov, M. Uffelen, and S. Girard, “An introduction to radiation effects on optical components and fiber optic sensors,” in “Optical waveguide sensing and imaging,”, W. Bock, I. Gannot, and S. Tanev, eds. (SpringerNetherlands, 2008), pp. 127–165.
[Crossref]

Bize, S.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Blanchet, L.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Bongs, K.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Boscolo, A.

G. Naletto, A. Boscolo, J. Wyss, and A. Quaranta, “Effects of proton irradiation on glass filter substrates for the Rosetta mission,” Appl. Optics 42, 3970–3980 (2003).
[Crossref]

Bouyer, P.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Brasch, V.

Braxmaier, C.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Brichard, B.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

F. Berghmans, B. Brichard, A. Fernandez, A. Gusarov, M. Uffelen, and S. Girard, “An introduction to radiation effects on optical components and fiber optic sensors,” in “Optical waveguide sensing and imaging,”, W. Bock, I. Gannot, and S. Tanev, eds. (SpringerNetherlands, 2008), pp. 127–165.
[Crossref]

Bryant, J. F.

J. A. Wall and J. F. Bryant, “Radiation effects on fiber optics,” Physical Sciences Research Papers (1975).

Cacciapuoti, L.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Calonico, D.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Campa, E. P.

Q.-F. Chen, A. Nevsky, S. Schiller, E. P. Campa, S. Lecomte, and D. Parker, “Proton irradiation robustness of dielectric mirrors for high-finesse Fabry-Pérot resonators in the near-infrared spectral range,” Appl. Phys. B 116, 1–7 (2013).

Capozziello, S.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Chen, J.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Chen, L.

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

Chen, Q.-F.

Q.-F. Chen, A. Nevsky, S. Schiller, E. P. Campa, S. Lecomte, and D. Parker, “Proton irradiation robustness of dielectric mirrors for high-finesse Fabry-Pérot resonators in the near-infrared spectral range,” Appl. Phys. B 116, 1–7 (2013).

Chen, X.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Clairon, A.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Daly, E.

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
[Crossref]

Del’Haye, P.

P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
[Crossref]

Dittus, H.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Donati, A.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Dyer, C. S.

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
[Crossref]

Ekstrom, C.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

Ertmer, W.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Evans, H.

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
[Crossref]

Falke, S.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Farr, L.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

Ferdous, F.

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

Fernandez, A.

F. Berghmans, B. Brichard, A. Fernandez, A. Gusarov, M. Uffelen, and S. Girard, “An introduction to radiation effects on optical components and fiber optic sensors,” in “Optical waveguide sensing and imaging,”, W. Bock, I. Gannot, and S. Tanev, eds. (SpringerNetherlands, 2008), pp. 127–165.
[Crossref]

Fernandez, A. F.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

Ferrari, G.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Flambaum, V.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Flechner, F.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Foster, M. A.

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
[Crossref]

Franzen, T.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Friebele, E. J.

D. L. Griscom, M. E. Gingerich, and E. J. Friebele, “Radiation-induced defects in glasses: Origin of power-law dependence of concentration on dose,” Phys. Rev. Lett. 71, 1019–1022 (1993).
[Crossref] [PubMed]

Gaaloul, N.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Gaeta, A. L.

D. J. Moss, R. Morandotti, A. L. Gaeta, and M. Lipson, “New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics,” Nat. Photonics 7, 597–607 (2013).
[Crossref]

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
[Crossref]

Gao, K.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Gavartin, E.

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
[Crossref]

Gill, E.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Gill, P.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Gingerich, M. E.

D. L. Griscom, M. E. Gingerich, and E. J. Friebele, “Radiation-induced defects in glasses: Origin of power-law dependence of concentration on dose,” Phys. Rev. Lett. 71, 1019–1022 (1993).
[Crossref] [PubMed]

Girard, S.

F. Berghmans, B. Brichard, A. Fernandez, A. Gusarov, M. Uffelen, and S. Girard, “An introduction to radiation effects on optical components and fiber optic sensors,” in “Optical waveguide sensing and imaging,”, W. Bock, I. Gannot, and S. Tanev, eds. (SpringerNetherlands, 2008), pp. 127–165.
[Crossref]

Giulini, D.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Gondarenko, A.

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
[Crossref]

Görlitz, A.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Gorodetsky, M. L.

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
[Crossref]

P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
[Crossref]

M. L. Gorodetsky, A. D. Pryamikov, and V. S. Ilchenko, “Rayleigh scattering in high-Q microspheres,” J. Opt. Soc. Am. B 17, 1051–1057 (2000).
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Greiter, M.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
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Habs, D.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
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Hansch, T. W.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
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Hartinger, K.

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
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J. Riemensberger, K. Hartinger, T. Herr, V. Brasch, R. Holzwarth, and T. J. Kippenberg, “Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition,” Opt. Express 20, 27661–27669 (2012).
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Hartwig, J.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Haus, H.

Henschel, H.

H. Henschel, O. Koehn, and H. U. Schmidt, “Radiation-induced transmission loss of integrated optic waveguide devices,” Proc. SPIE 1794, 79–90 (1993).
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H. Henschel, O. Kohn, and U. Weinand, “Radiation hardening of pure silica optical fibres by high pressure hydrogen treatment,” 6th European Conference on radiation and its effects on components and systems pp. 141–149 (2001).

Herr, T.

J. Riemensberger, K. Hartinger, T. Herr, V. Brasch, R. Holzwarth, and T. J. Kippenberg, “Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition,” Opt. Express 20, 27661–27669 (2012).
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T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
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Heß, M. P.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Heynderickx, D.

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
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Hoeschen, C.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
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Holzwarth, R.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
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S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

J. Riemensberger, K. Hartinger, T. Herr, V. Brasch, R. Holzwarth, and T. J. Kippenberg, “Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition,” Opt. Express 20, 27661–27669 (2012).
[Crossref] [PubMed]

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
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P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
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S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Iess, L.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Ilchenko, V. S.

Iorio, L.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Ippen, E.

Jetzer, P.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Jones, J. D. C.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
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Kaenders, W.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Kippenberg, T. J.

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
[Crossref]

J. Riemensberger, K. Hartinger, T. Herr, V. Brasch, R. Holzwarth, and T. J. Kippenberg, “Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition,” Opt. Express 20, 27661–27669 (2012).
[Crossref] [PubMed]

P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
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T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Kerr-nonlinearity optical parametric oscillation in an ultrahigh-Q toroid microcavity,” Phys. Rev. Lett. 93, 83904 (2004).
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T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Modal coupling in traveling-wave resonators,” Opt. Lett. 27, 1669–1671 (2002).
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Klein, H.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Knight, J. C.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

Koehn, O.

H. Henschel, O. Koehn, and H. U. Schmidt, “Radiation-induced transmission loss of integrated optic waveguide devices,” Proc. SPIE 1794, 79–90 (1993).
[Crossref]

Kohn, O.

H. Henschel, O. Kohn, and U. Weinand, “Radiation hardening of pure silica optical fibres by high pressure hydrogen treatment,” 6th European Conference on radiation and its effects on components and systems pp. 141–149 (2001).

Kulosa, A.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Lämmerzahl, C.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Landragin, A.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Laurent, P.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Leaird, D. E.

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
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Lecomte, S.

Q.-F. Chen, A. Nevsky, S. Schiller, E. P. Campa, S. Lecomte, and D. Parker, “Proton irradiation robustness of dielectric mirrors for high-finesse Fabry-Pérot resonators in the near-infrared spectral range,” Appl. Phys. B 116, 1–7 (2013).

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Lei, F.

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
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Lemonde, P.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Levi, F.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Levy, J. S.

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
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Lezius, M.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
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Lipson, M.

D. J. Moss, R. Morandotti, A. L. Gaeta, and M. Lipson, “New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics,” Nat. Photonics 7, 597–607 (2013).
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J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
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Lisdat, C.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Liu, L.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Lodewyck, J.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Lusanna, L.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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MacPherson, W. N.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
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Maier, R. R. J.

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
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Margolis, H.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Riemensberger, J.

J. Riemensberger, K. Hartinger, T. Herr, V. Brasch, R. Holzwarth, and T. J. Kippenberg, “Dispersion engineering of thick high-Q silicon nitride ring-resonators via atomic layer deposition,” Opt. Express 20, 27661–27669 (2012).
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S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
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Sterr, U.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Stower, W.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

Streifer, W.

W. Stutius and W. Streifer, “Silicon nitride films on silicon for optical waveguides,” Appl. Optics 16, 3218–3222 (1977).
[Crossref]

Stuhler, J.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Stutius, W.

W. Stutius and W. Streifer, “Silicon nitride films on silicon for optical waveguides,” Appl. Optics 16, 3218–3222 (1977).
[Crossref]

Svehla, D.

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

Syms, R.

Tasson, J. D.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Teams, m. o. t. S.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Thirolf, P.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

Tino, G. M.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Truscott, P. R.

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
[Crossref]

Tuckey, P.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Turler, A.

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

Turner-foster, A. C.

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
[Crossref]

Uffelen, M.

F. Berghmans, B. Brichard, A. Fernandez, A. Gusarov, M. Uffelen, and S. Girard, “An introduction to radiation effects on optical components and fiber optic sensors,” in “Optical waveguide sensing and imaging,”, W. Bock, I. Gannot, and S. Tanev, eds. (SpringerNetherlands, 2008), pp. 127–165.
[Crossref]

Vahala, K. J.

T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Kerr-nonlinearity optical parametric oscillation in an ultrahigh-Q toroid microcavity,” Phys. Rev. Lett. 93, 83904 (2004).
[Crossref]

T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Modal coupling in traveling-wave resonators,” Opt. Lett. 27, 1669–1671 (2002).
[Crossref]

Varghese, L. T.

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

Vasilyev, S.

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Wall, J. A.

J. A. Wall and J. F. Bryant, “Radiation effects on fiber optics,” Physical Sciences Research Papers (1975).

Wang, C.

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
[Crossref]

Wang, J.

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

Watts, M.

Weinand, U.

H. Henschel, O. Kohn, and U. Weinand, “Radiation hardening of pure silica optical fibres by high pressure hydrogen treatment,” 6th European Conference on radiation and its effects on components and systems pp. 141–149 (2001).

Weiner, A. M.

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

Wolf, P.

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

Wyss, J.

G. Naletto, A. Boscolo, J. Wyss, and A. Quaranta, “Effects of proton irradiation on glass filter substrates for the Rosetta mission,” Appl. Optics 42, 3970–3980 (2003).
[Crossref]

Appl. Optics (3)

G. Naletto, A. Boscolo, J. Wyss, and A. Quaranta, “Effects of proton irradiation on glass filter substrates for the Rosetta mission,” Appl. Optics 42, 3970–3980 (2003).
[Crossref]

M. T. Shetter and V. J. Abreu, “Radiation effects on the transmission of various optical glasses and epoxies,” Appl. Optics 18, 1132–1133 (1979).
[Crossref]

W. Stutius and W. Streifer, “Silicon nitride films on silicon for optical waveguides,” Appl. Optics 16, 3218–3222 (1977).
[Crossref]

Appl. Phys. B (1)

Q.-F. Chen, A. Nevsky, S. Schiller, E. P. Campa, S. Lecomte, and D. Parker, “Proton irradiation robustness of dielectric mirrors for high-finesse Fabry-Pérot resonators in the near-infrared spectral range,” Appl. Phys. B 116, 1–7 (2013).

Exp. Astron. (1)

S. Schiller, G. M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Görlitz, D. Svehla, G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli, A. Clairon, W. Ertmer, E. Rasel, J. Müller, L. Iorio, C. Lämmerzahl, H. Dittus, E. Gill, M. Rothacher, F. Flechner, U. Schreiber, V. Flambaum, W.-T. Ni, L. Liu, X. Chen, J. Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M. P. Heß, and W. Schäfer, “Einstein gravity explorer – a medium-class fundamental physics mission,” Exp. Astron. 23, 573–610 (2009).
[Crossref]

IEEE T. Nucl. Sci. (2)

M. Lezius, K. Predehl, W. Stower, A. Turler, M. Greiter, C. Hoeschen, P. Thirolf, W. Assmann, D. Habs, A. Prokofiev, C. Ekstrom, T. W. Hansch, and R. Holzwarth, “Radiation induced absorption in rare earth doped optical fibers,” IEEE T. Nucl. Sci. 59, 425–433 (2012).
[Crossref]

F. Lei, P. R. Truscott, C. S. Dyer, B. Quaghebeur, D. Heynderickx, P. Nieminen, H. Evans, and E. Daly, “MULASSIS: a Geant4-based multilayered shielding simulation tool,” IEEE T. Nucl. Sci. 49, 2788–2793 (2002).
[Crossref]

J. Lightwave Technol. (1)

J. Non-Cryst. Solids (1)

D. L. Griscom, “Trapped-electron centers in pure and doped glassy silica: A review and synthesis,” J. Non-Cryst. Solids 357, 1945–1962 (2011).
[Crossref]

J. Opt. Soc. Am. B (1)

Let’s embrace space (1)

S. Schiller, A. Görlitz, A. Nevsky, S. Alighanbari, S. Vasilyev, C. Abou-Jaoudeh, G. Mura, T. Franzen, U. Sterr, S. Falke, C. Lisdat, E. Rasel, A. Kulosa, S. Bize, J. Lodewyck, G. M. Tino, N. Poli, M. Schioppo, K. Bongs, Y. Singh, P. Gill, G. Barwood, Y. Ovchinnikov, J. Stuhler, W. Kaenders, C. Braxmaier, R. Holzwarth, A. Donati, S. Lecomte, D. Calonico, F. Levi, and m. o. t. S. Teams, “Towards neutral-atom space optical clocks (SOC2): Development of high-performance transportable and breadboard optical clocks and advanced subsystems,” Let’s embrace space II, 452–463 (2012).

Meas. Sci. Technol. (1)

W. N. MacPherson, R. R. J. Maier, J. S. Barton, J. D. C. Jones, A. F. Fernandez, B. Brichard, F. Berghmans, J. C. Knight, P. S. Russell, and L. Farr, “Dispersion and refractive index measurement for Ge, B-Ge doped and photonic crystal fibre following irradiation at MGy levels,” Meas. Sci. Technol. 15, 1659 (2004).
[Crossref]

Nat. Photonics (5)

P. Del’Haye, O. Arcizet, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Frequency comb assisted diode laser spectroscopy for measurement of microcavity dispersion,” Nat. Photonics 3, 529–533 (2009).
[Crossref]

D. J. Moss, R. Morandotti, A. L. Gaeta, and M. Lipson, “New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics,” Nat. Photonics 7, 597–607 (2013).
[Crossref]

J. S. Levy, A. Gondarenko, M. A. Foster, A. C. Turner-foster, A. L. Gaeta, and M. Lipson, “CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects,” Nat. Photonics 4, 37–40 (2010).
[Crossref]

T. Herr, K. Hartinger, J. Riemensberger, C. Wang, E. Gavartin, R. Holzwarth, M. L. Gorodetsky, and T. J. Kippenberg, “Universal formation dynamics and noise of Kerr-frequency combs in microresonators,” Nat. Photonics 6, 480–487 (2012).
[Crossref]

F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics 5, 770–776 (2011).
[Crossref]

Opt. Express (3)

Opt. Lett. (1)

Phys. Rev. Lett. (2)

D. L. Griscom, M. E. Gingerich, and E. J. Friebele, “Radiation-induced defects in glasses: Origin of power-law dependence of concentration on dose,” Phys. Rev. Lett. 71, 1019–1022 (1993).
[Crossref] [PubMed]

T. J. Kippenberg, S. M. Spillane, and K. J. Vahala, “Kerr-nonlinearity optical parametric oscillation in an ultrahigh-Q toroid microcavity,” Phys. Rev. Lett. 93, 83904 (2004).
[Crossref]

Proc. SPIE (2)

H. Henschel, O. Koehn, and H. U. Schmidt, “Radiation-induced transmission loss of integrated optic waveguide devices,” Proc. SPIE 1794, 79–90 (1993).
[Crossref]

T. P. Appourchaux, “Effect of space radiations on optical filters,” Proc. SPIE 2018, 80–91 (1993).
[Crossref]

Other (8)

J. A. Wall and J. F. Bryant, “Radiation effects on fiber optics,” Physical Sciences Research Papers (1975).

M. N. Ott, “Radiation effects data on commercially available optical fiber: database summary,” Radiation Effects Data Workshop, IEEE pp. 24–31 (2002).

H. Henschel, O. Kohn, and U. Weinand, “Radiation hardening of pure silica optical fibres by high pressure hydrogen treatment,” 6th European Conference on radiation and its effects on components and systems pp. 141–149 (2001).

F. Berghmans, B. Brichard, A. Fernandez, A. Gusarov, M. Uffelen, and S. Girard, “An introduction to radiation effects on optical components and fiber optic sensors,” in “Optical waveguide sensing and imaging,”, W. Bock, I. Gannot, and S. Tanev, eds. (SpringerNetherlands, 2008), pp. 127–165.
[Crossref]

B. Altschul, Q. G. Bailey, L. Blanchet, K. Bongs, P. Bouyer, L. Cacciapuoti, S. Capozziello, N. Gaaloul, D. Giulini, J. Hartwig, L. Iess, P. Jetzer, A. Landragin, E. Rasel, S. Reynaud, S. Schiller, C. Schubert, F. Sorrentino, U. Sterr, J. D. Tasson, G. M. Tino, P. Tuckey, and P. Wolf, “Quantum tests of the Einstein equivalence principle with the STE-QUEST space mission,” arXiv 1404.4307 (2014).

J. F. Ziegler, “SRIM Software,” http://www.srim.org (2013).

“MUlti-LAyered Shielding SImulation Software (MULASSIS),” http://reat.space.qinetiq.com/mulassis/ .

“ESA document ’STE-QUEST environmental specification’,” issue 1 revision 0, reference js-10–12, May (2012).

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Figures (4)

Fig. 1
Fig. 1 (a) Schematic cross-section of the system tested. The silicon nitride waveguide is shown in green with an approximated intensity distribution for a fundamental mode around 1550 nm inside (red). The silicon dioxide cladding above and below differ slightly as they have been deposited or grown using different methods. (b) Colored electron microscopy image of a SiN microresonator (not one tested and with smaller radius) without the glass cladding. The resonator waveguide is colored green while the bus waveguide is colored red. (c) Energy loss function for protons with energies ranging from 1 keV to 100MeV in silicon nitride and silicon dioxide calculated with SRIM [22]. (d) Schematic of the setup used for the characterization. ECDL: external cavity diode laser; FG: function generator for the sweep of the laser; FPC: fiber polarization controller; TLF: tapered lensed fibers to couple to the chip; PD: photo diodes; BPF: electrical band-pass filter; OSA: optical spectrum analyzer
Fig. 2
Fig. 2 Four measurements of total linewidths and their fits from resonator III. Dark blue is the measurement before radiation, red the measurement after radiation. Green and light blue are the fits for pre and post radiation respectively. Δκ/2π is the difference in fitted resonance widths as plotted in Fig. 4. Δγ/2π is the difference in the fitted splitting of the resonance in the two fits. These differences are caused by the polarization dependency of the exact lineshape of the resonance.
Fig. 3
Fig. 3 (a) Red, time-integrated and energy-integrated (integral) proton fluence expected during the 5-year-long STE-QUEST mission; blue, same, but behind a 2 mm thick aluminum shield; green, same, but behind a 10 mm thick aluminum shield; purple, integral fluence of the proton radiation applied in the test. (b) The corresponding time-integrated differential fluences. The bin width at E = 99.7 MeV in the plot (b) is 13 MeV. “Orbit protons” refers to the proton spectrum on the STE-QUEST orbit, with duration of 5 years. “Proton radiation applied” is the radiation impinging onto the tested microresonators.
Fig. 4
Fig. 4 (a) Change in total linewidth (Δκ/2π=κafter/2πκbefore/2π) of the resonances of four resonators (dark blue, green, red, light blue) plotted over averaged linewidth (κafter + κbefore)/4π. Average linewidths for one resonator are 370, 440, 380 and 250 MHz for resonator I (dark blue) and II (green) on Chip 1, III (red) and IV (light blue) from Chip 2 respectively. (b) histograms of the change in linewidth for each resonator, same dataset with same colors as in (a). The black lines represent the fitted Gaussian distributions. The outermost bins of the histograms on either side have been excluded for the fits. The values obtained for the mean of the distribution as offset from 0 (〈Δκf〉/2π) are −1.9, −2.2, 0.5 and 4.7 MHz for resonator I, II, III and IV respectively. The standard deviation in the same order are 9.5, 20.3, 13.7 and 12.6 MHz.

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