Abstract

Femtosecond pulse characterization and compensation using multiphoton intrapulse interference phase scan (MIIPS) [Opt. Lett.29, 775 (2004)] was rigorously tested. MIIPS was found to have 3 mrad precision within the 90 nm bandwidth of the pulses. Group-velocity dispersion measurements of glass and quartz provided independent accuracy tests. Phase distortions from high-numerical-aperture objectives were measured and corrected using MIIPS, an important requirement for reproducible two-photon microscopy. Phase compensation greatly improved the pulse-shaping results through a more accurate delivery of continuous and binary phase functions to the sample. MIIPS measurements were possible through the scattering of biological tissue, a consideration for biomedical imaging.

© 2006 Optical Society of America

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2005 (4)

J. M. Dela Cruz, I. Pastirk, M. Comstock, V. V. Lozovoy, and M. Dantus, "Use of coherent control methods through scattering biological tissue to achieve functional imaging," Proc. Natl. Acad. Sci. U.S.A. 101, 16996-17001 (2005).

I. Pastirk, M. Kangas, and M. Dantus, "Multidimensional analytical method based on binary phase shaping of femtosecond pulses," J. Phys. Chem. A 109, 2413-2416(2005).

J. M. Dela Cruz, V. V. Lozovoy, and M. Dantus, "Quantitative mass spectrometric identification of isomers applying coherent laser control," J. Phys. Chem. A 109, 8447-8450 (2005).

V. V. Lozovoy and M. Dantus, "Systematic control of nonlinear optical processes using optimally shaped femtosecond pulses," Chem. Phys. Chem. 65, 1952-1967 (2005).

2004 (4)

2003 (3)

2002 (6)

V. V. Lozovoy and M. Dantus, "Photon echo pulse sequences with femtosecond shaped laser pulses as a vehicle for molecule-based quantum computation," Chem. Phys. Lett. 351, 213-221 (2002).

D. Oron, N. Dudovich, D. Yelin, and Y. Silberberg, "Quantum control of coherent anti-Stokes Raman processes," Phys. Rev. A 65, 043408 (2002).
[CrossRef]

K. A. Walowicz, I. Pastrik, V. V. Lozovoy, and M. Dantus, "Multiphoton intrapulse interference. 1. Control of multiphoton processes in condensed phases," J. Phys. Chem. A 106, 9369-9373 (2002).

F. L. Legare, J. M. Fraser, D. M. Villeneuve, and P. B. Corkum, "Adaptive compression of intense 250-nm-bandwidth laser pulses," Appl. Phys. B 74, S279-S282 (2002).

A. Baltuska, T. Fuji, and T. Kobayashi, "Visible pulse compression to 4 fs by optical parametric amplification and programmable dispersion control," Opt. Lett. 27, 306-308 (2002).

U. Siegner, M. Haiml, J. Kunde, and U. Keller, "Adaptive pulse compression by two-photon absorption in semiconductors," Opt. Lett. 27, 315-317 (2002).

2001 (3)

M. R. Armstrong, P. Plachta, E. A. Ponomarev, and R. J. D. Miller, "Versatile 7-fs optical parametric pulse generation and compression by use of adaptive optics," Opt. Lett. 26, 1152-1154 (2001).

R. J. Levis, G. M. Menkir, and H. Rabitz, "Selective bond dissociation and rearrangement with optimally tailored, strong-field laser pulses," Science 292, 709-713 (2001).

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

2000 (5)

D. Zeidler, T. Hornung, D. Proch, and M. Motzkus, "Adaptive compression of tunable pulses from a non-collinear-type OPA to below 16 fs by feedback-controlled pulse shaping," Appl. Phys. B 70, S125-S131 (2000).

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

A. M. Weiner, "Femtosecond pulse shaping using spatial light modulators," Rev. Sci. Instrum. 71, 1929-1960 (2000).

J. Ahn, T. C. Weinacht, and P. H. Bucksbaum, "Information storage and retrieval through quantum phase," Science 287, 463-465 (2000).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, and U. Keller, "Techniques for the characterization of sub-10-fs optical pulses: a comparison," Appl. Phys. B 70, (Suppl.) S67-S75 (2000).

1999 (8)

D. N. Fittinghoff, A. C. Millard, J. A. Squier, and M. Muller, "Frequency-resolved optical gating measurement of ultrashort pulses passing through a high numerical aperture objective," IEEE J. Quantum Electron. 35, 479-486 (1999).

A. Baltuska, M. S. Pshenichnikov, and D. A. Wiersma, "Second-harmonic generation frequency-resolved optical gating in the single-cycle regime," IEEE J. Quantum Electron. 35, 459-478 (1999).

A. Neogi, H. Yoshida, T. Mozume, and O. Wada, "Enhancement of interband optical nonlinearity by manipulation of intersubband transitions in an undoped semiconductor quantum well," Opt. Commun. 159, 225-229 (1999).

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

E. Zeek, K. Maginnis, S. Backus, U. Russek, M. Murnane, G. Mourou, H. Kapteyn, and G. Vdovin, "Pulse compression by use of deformable mirrors," Opt. Lett. 24, 493-495 (1999).

J. Jasapara and W. Rudolph, "Characterization of sub-10-fs pulse focusing with high-numerical-aperture microscope objectives," Opt. Lett. 24, 777-779 (1999).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, U. Keller, C. Iaconis, and I. A. Walmsley, "Characterization of sub-6-fs optical pulses with spectral phase interferometry for direct electric-field reconstruction," Opt. Lett. 24, 1314-1316 (1999).

C. Dorrer, B. de Beauvoir, C. Le Blanc, S. Ranc, J. P. Rousseau, P. Rousseau, and J. P. Chambaret, "Single-shot real-time characterization of chirped-pulse amplification systems by spectral phase interferometry for direct electric-field reconstruction," Opt. Lett. 24, 1644-1646 (1999).

1998 (7)

1997 (2)

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

1996 (1)

1994 (1)

1993 (1)

1992 (2)

B. Broers, H. B. V. Vandenheuvell, and L. D. Noordam, "Large interference effects of small chirp observed in 2-photon absorption," Opt. Commun. 91, 57-61 (1992).

A. M. Weiner, "Programmable shaping of femtosecond optical pulses by use of 128-element liquid-crystal phase modulator," IEEE J. Quantum Electron. 28, 908-920 (1992).

1965 (1)

Ahn, J.

J. Ahn, T. C. Weinacht, and P. H. Bucksbaum, "Information storage and retrieval through quantum phase," Science 287, 463-465 (2000).

Amat-Roldan, I.

Armstrong, M. R.

Artigas, D.

Assion, A.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

Backus, S.

Baltuska, A.

Bardeen, C. J.

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

Barty, C. P.

Baumert, T.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

Beach, N. M.

Bergt, M.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

Brakenhoff, G. J.

M. Muller, J. Squier, R. Wolleschensky, U. Simon, and G. J. Brakenhoff, "Dispersion pre-compensation of 15 femtosecond optical pulses for high-numerical-aperture objectives," J. Microsc. 191, 141-150 (1998).

Brixner, T.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

Broers, B.

B. Broers, H. B. V. Vandenheuvell, and L. D. Noordam, "Large interference effects of small chirp observed in 2-photon absorption," Opt. Commun. 91, 57-61 (1992).

Bucksbaum, P. H.

J. Ahn, T. C. Weinacht, and P. H. Bucksbaum, "Information storage and retrieval through quantum phase," Science 287, 463-465 (2000).

Carpenter, S. D.

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

Chambaret, J. P.

Comstock, M.

J. M. Dela Cruz, I. Pastirk, M. Comstock, V. V. Lozovoy, and M. Dantus, "Use of coherent control methods through scattering biological tissue to achieve functional imaging," Proc. Natl. Acad. Sci. U.S.A. 101, 16996-17001 (2005).

J. M. Dela Cruz, I. Pastirk, M. Comstock, and M. Dantus, "Multiphoton intrapulse interference. 8. Coherent control through scattering tissue," Opt. Express 12, 4144-4149 (2004).

Corkum, P. B.

F. L. Legare, J. M. Fraser, D. M. Villeneuve, and P. B. Corkum, "Adaptive compression of intense 250-nm-bandwidth laser pulses," Appl. Phys. B 74, S279-S282 (2002).

Cormack, I. G.

Cruz, J. M.

J. M. Dela Cruz, V. V. Lozovoy, and M. Dantus, "Quantitative mass spectrometric identification of isomers applying coherent laser control," J. Phys. Chem. A 109, 8447-8450 (2005).

J. M. Dela Cruz, I. Pastirk, M. Comstock, V. V. Lozovoy, and M. Dantus, "Use of coherent control methods through scattering biological tissue to achieve functional imaging," Proc. Natl. Acad. Sci. U.S.A. 101, 16996-17001 (2005).

J. M. Dela Cruz, I. Pastirk, V. V. Lozovoy, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. 3: Probing microscopic chemical environments," J. Phys. Chem. A 108, 53-58 (2004).

J. M. Dela Cruz, I. Pastirk, M. Comstock, and M. Dantus, "Multiphoton intrapulse interference. 8. Coherent control through scattering tissue," Opt. Express 12, 4144-4149 (2004).

I. Pastirk, J. M. Dela Cruz, K. A. Walowicz, V. V. Lozovoy, and M. Dantus, "Selective two-photon microscopy with shaped femtosecond pulses," Opt. Express 11, 1695-1701 (2003).

Dantus, M.

J. M. Dela Cruz, I. Pastirk, M. Comstock, V. V. Lozovoy, and M. Dantus, "Use of coherent control methods through scattering biological tissue to achieve functional imaging," Proc. Natl. Acad. Sci. U.S.A. 101, 16996-17001 (2005).

I. Pastirk, M. Kangas, and M. Dantus, "Multidimensional analytical method based on binary phase shaping of femtosecond pulses," J. Phys. Chem. A 109, 2413-2416(2005).

J. M. Dela Cruz, V. V. Lozovoy, and M. Dantus, "Quantitative mass spectrometric identification of isomers applying coherent laser control," J. Phys. Chem. A 109, 8447-8450 (2005).

V. V. Lozovoy and M. Dantus, "Systematic control of nonlinear optical processes using optimally shaped femtosecond pulses," Chem. Phys. Chem. 65, 1952-1967 (2005).

V. V. Lozovoy, I. Pastirk, and M. Dantus, "Multiphoton intrapulse interference. IV. Ultrashort laser pulse spectral phase characterization and compensation," Opt. Lett. 29, 775-777 (2004).

J. M. Dela Cruz, I. Pastirk, V. V. Lozovoy, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. 3: Probing microscopic chemical environments," J. Phys. Chem. A 108, 53-58 (2004).

J. M. Dela Cruz, I. Pastirk, M. Comstock, and M. Dantus, "Multiphoton intrapulse interference. 8. Coherent control through scattering tissue," Opt. Express 12, 4144-4149 (2004).

I. Pastirk, J. M. Dela Cruz, K. A. Walowicz, V. V. Lozovoy, and M. Dantus, "Selective two-photon microscopy with shaped femtosecond pulses," Opt. Express 11, 1695-1701 (2003).

V. V. Lozovoy, I. Pastirk, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. II. Control of two- and three-photon laser induced fluorescence with shaped pulses," J. Chem. Phys. 118, 3187-3196 (2003).

K. A. Walowicz, I. Pastrik, V. V. Lozovoy, and M. Dantus, "Multiphoton intrapulse interference. 1. Control of multiphoton processes in condensed phases," J. Phys. Chem. A 106, 9369-9373 (2002).

V. V. Lozovoy and M. Dantus, "Photon echo pulse sequences with femtosecond shaped laser pulses as a vehicle for molecule-based quantum computation," Chem. Phys. Lett. 351, 213-221 (2002).

de Beauvoir, B.

DeLong, K. W.

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

K. W. DeLong, R. Trebino, J. Hunter, and W. E. White, "Frequency-resolved optical gating with the use of second-harmonic generation," J. Opt. Soc. Am. B 11, 2206-2215 (1994).

Diddams, S.

Diels, J. C.

Dorrer, C.

Dudovich, N.

D. Oron, N. Dudovich, D. Yelin, and Y. Silberberg, "Quantum control of coherent anti-Stokes Raman processes," Phys. Rev. A 65, 043408 (2002).
[CrossRef]

Efimov, A.

Feurer, T.

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

Fittinghoff, D. N.

D. N. Fittinghoff, A. C. Millard, J. A. Squier, and M. Muller, "Frequency-resolved optical gating measurement of ultrashort pulses passing through a high numerical aperture objective," IEEE J. Quantum Electron. 35, 479-486 (1999).

D. N. Fittinghoff, J. A. Squier, C. P. J. Barty, J. N. Sweetser, R. Trebino, and M. Muller, "Collinear type II second-harmonic-generation frequency-resolved optical gating for use with high-numerical-aperture objectives," Opt. Lett. 23, 1046-1048 (1998).

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

Fraser, J. M.

F. L. Legare, J. M. Fraser, D. M. Villeneuve, and P. B. Corkum, "Adaptive compression of intense 250-nm-bandwidth laser pulses," Appl. Phys. B 74, S279-S282 (2002).

Fuji, T.

Gallmann, L.

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, and U. Keller, "Techniques for the characterization of sub-10-fs optical pulses: a comparison," Appl. Phys. B 70, (Suppl.) S67-S75 (2000).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, U. Keller, C. Iaconis, and I. A. Walmsley, "Characterization of sub-6-fs optical pulses with spectral phase interferometry for direct electric-field reconstruction," Opt. Lett. 24, 1314-1316 (1999).

Gerber, G.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

Hacker, M.

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

Haiml, M.

Herzog, R.

Hornung, T.

D. Zeidler, T. Hornung, D. Proch, and M. Motzkus, "Adaptive compression of tunable pulses from a non-collinear-type OPA to below 16 fs by feedback-controlled pulse shaping," Appl. Phys. B 70, S125-S131 (2000).

Hunter, J.

Iaconis, C.

Itoh, M.

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

Jasapara, J.

Joffre, M.

Kane, D. J.

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

R. Trebino and D. J. Kane, "Using phase retrieval to measure the intensity and phase of ultrashort pulses--frequency-resolved optical gating," J. Opt. Soc. Am. A 10, 1101-1111 (1993).

Kangas, M.

I. Pastirk, M. Kangas, and M. Dantus, "Multidimensional analytical method based on binary phase shaping of femtosecond pulses," J. Phys. Chem. A 109, 2413-2416(2005).

Kaplan, D.

Kapteyn, H.

Keller, U.

Kiefer, B.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

Kobayashi, T.

Krause, J. L.

Krumbugel, M. A.

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

Kunde, J.

Le Blanc, C.

Legare, F. L.

F. L. Legare, J. M. Fraser, D. M. Villeneuve, and P. B. Corkum, "Adaptive compression of intense 250-nm-bandwidth laser pulses," Appl. Phys. B 74, S279-S282 (2002).

Levis, R. J.

R. J. Levis, G. M. Menkir, and H. Rabitz, "Selective bond dissociation and rearrangement with optimally tailored, strong-field laser pulses," Science 292, 709-713 (2001).

Loza-Alvarez, P.

Lozovoy, V. V.

V. V. Lozovoy and M. Dantus, "Systematic control of nonlinear optical processes using optimally shaped femtosecond pulses," Chem. Phys. Chem. 65, 1952-1967 (2005).

J. M. Dela Cruz, V. V. Lozovoy, and M. Dantus, "Quantitative mass spectrometric identification of isomers applying coherent laser control," J. Phys. Chem. A 109, 8447-8450 (2005).

J. M. Dela Cruz, I. Pastirk, M. Comstock, V. V. Lozovoy, and M. Dantus, "Use of coherent control methods through scattering biological tissue to achieve functional imaging," Proc. Natl. Acad. Sci. U.S.A. 101, 16996-17001 (2005).

V. V. Lozovoy, I. Pastirk, and M. Dantus, "Multiphoton intrapulse interference. IV. Ultrashort laser pulse spectral phase characterization and compensation," Opt. Lett. 29, 775-777 (2004).

J. M. Dela Cruz, I. Pastirk, V. V. Lozovoy, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. 3: Probing microscopic chemical environments," J. Phys. Chem. A 108, 53-58 (2004).

V. V. Lozovoy, I. Pastirk, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. II. Control of two- and three-photon laser induced fluorescence with shaped pulses," J. Chem. Phys. 118, 3187-3196 (2003).

I. Pastirk, J. M. Dela Cruz, K. A. Walowicz, V. V. Lozovoy, and M. Dantus, "Selective two-photon microscopy with shaped femtosecond pulses," Opt. Express 11, 1695-1701 (2003).

K. A. Walowicz, I. Pastrik, V. V. Lozovoy, and M. Dantus, "Multiphoton intrapulse interference. 1. Control of multiphoton processes in condensed phases," J. Phys. Chem. A 106, 9369-9373 (2002).

V. V. Lozovoy and M. Dantus, "Photon echo pulse sequences with femtosecond shaped laser pulses as a vehicle for molecule-based quantum computation," Chem. Phys. Lett. 351, 213-221 (2002).

Maginnis, K.

Malitson, I. H.

Matuschek, N.

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, and U. Keller, "Techniques for the characterization of sub-10-fs optical pulses: a comparison," Appl. Phys. B 70, (Suppl.) S67-S75 (2000).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, U. Keller, C. Iaconis, and I. A. Walmsley, "Characterization of sub-6-fs optical pulses with spectral phase interferometry for direct electric-field reconstruction," Opt. Lett. 24, 1314-1316 (1999).

Menkir, G. M.

R. J. Levis, G. M. Menkir, and H. Rabitz, "Selective bond dissociation and rearrangement with optimally tailored, strong-field laser pulses," Science 292, 709-713 (2001).

Meshulach, D.

Millard, A. C.

D. N. Fittinghoff, A. C. Millard, J. A. Squier, and M. Muller, "Frequency-resolved optical gating measurement of ultrashort pulses passing through a high numerical aperture objective," IEEE J. Quantum Electron. 35, 479-486 (1999).

Miller, R. J.

Monmayrant, A.

Moores, M. D.

Mori, M.

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

Motzkus, M.

D. Zeidler, T. Hornung, D. Proch, and M. Motzkus, "Adaptive compression of tunable pulses from a non-collinear-type OPA to below 16 fs by feedback-controlled pulse shaping," Appl. Phys. B 70, S125-S131 (2000).

Mourou, G.

Mozume, T.

A. Neogi, H. Yoshida, T. Mozume, and O. Wada, "Enhancement of interband optical nonlinearity by manipulation of intersubband transitions in an undoped semiconductor quantum well," Opt. Commun. 159, 225-229 (1999).

Muller, M.

D. N. Fittinghoff, A. C. Millard, J. A. Squier, and M. Muller, "Frequency-resolved optical gating measurement of ultrashort pulses passing through a high numerical aperture objective," IEEE J. Quantum Electron. 35, 479-486 (1999).

M. Muller, J. Squier, R. Wolleschensky, U. Simon, and G. J. Brakenhoff, "Dispersion pre-compensation of 15 femtosecond optical pulses for high-numerical-aperture objectives," J. Microsc. 191, 141-150 (1998).

D. N. Fittinghoff, J. A. Squier, C. P. J. Barty, J. N. Sweetser, R. Trebino, and M. Muller, "Collinear type II second-harmonic-generation frequency-resolved optical gating for use with high-numerical-aperture objectives," Opt. Lett. 23, 1046-1048 (1998).

Murnane, M.

Nakama, M.

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

Neogi, A.

A. Neogi, H. Yoshida, T. Mozume, and O. Wada, "Enhancement of interband optical nonlinearity by manipulation of intersubband transitions in an undoped semiconductor quantum well," Opt. Commun. 159, 225-229 (1999).

Netz, R.

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

Noordam, L. D.

B. Broers, H. B. V. Vandenheuvell, and L. D. Noordam, "Large interference effects of small chirp observed in 2-photon absorption," Opt. Commun. 91, 57-61 (1992).

Oksenhendler, T.

Oron, D.

D. Oron, N. Dudovich, D. Yelin, and Y. Silberberg, "Quantum control of coherent anti-Stokes Raman processes," Phys. Rev. A 65, 043408 (2002).
[CrossRef]

Pastirk, I.

J. M. Dela Cruz, I. Pastirk, M. Comstock, V. V. Lozovoy, and M. Dantus, "Use of coherent control methods through scattering biological tissue to achieve functional imaging," Proc. Natl. Acad. Sci. U.S.A. 101, 16996-17001 (2005).

I. Pastirk, M. Kangas, and M. Dantus, "Multidimensional analytical method based on binary phase shaping of femtosecond pulses," J. Phys. Chem. A 109, 2413-2416(2005).

J. M. Dela Cruz, I. Pastirk, M. Comstock, and M. Dantus, "Multiphoton intrapulse interference. 8. Coherent control through scattering tissue," Opt. Express 12, 4144-4149 (2004).

V. V. Lozovoy, I. Pastirk, and M. Dantus, "Multiphoton intrapulse interference. IV. Ultrashort laser pulse spectral phase characterization and compensation," Opt. Lett. 29, 775-777 (2004).

J. M. Dela Cruz, I. Pastirk, V. V. Lozovoy, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. 3: Probing microscopic chemical environments," J. Phys. Chem. A 108, 53-58 (2004).

V. V. Lozovoy, I. Pastirk, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. II. Control of two- and three-photon laser induced fluorescence with shaped pulses," J. Chem. Phys. 118, 3187-3196 (2003).

I. Pastirk, J. M. Dela Cruz, K. A. Walowicz, V. V. Lozovoy, and M. Dantus, "Selective two-photon microscopy with shaped femtosecond pulses," Opt. Express 11, 1695-1701 (2003).

Pastrik, I.

K. A. Walowicz, I. Pastrik, V. V. Lozovoy, and M. Dantus, "Multiphoton intrapulse interference. 1. Control of multiphoton processes in condensed phases," J. Phys. Chem. A 106, 9369-9373 (2002).

Plachta, P.

Ponomarev, E. A.

Proch, D.

D. Zeidler, T. Hornung, D. Proch, and M. Motzkus, "Adaptive compression of tunable pulses from a non-collinear-type OPA to below 16 fs by feedback-controlled pulse shaping," Appl. Phys. B 70, S125-S131 (2000).

Pshenichnikov, M. S.

A. Baltuska, M. S. Pshenichnikov, and D. A. Wiersma, "Second-harmonic generation frequency-resolved optical gating in the single-cycle regime," IEEE J. Quantum Electron. 35, 459-478 (1999).

A. Baltuska, M. S. Pshenichnikov, and D. A. Wiersma, "Amplitude and phase characterization of 4.5-fs pulses by frequency-resolved optical gating," Opt. Lett. 23, 1474-1476 (1998).

Rabitz, H.

R. J. Levis, G. M. Menkir, and H. Rabitz, "Selective bond dissociation and rearrangement with optimally tailored, strong-field laser pulses," Science 292, 709-713 (2001).

Ranc, S.

Reitze, D. H.

Richman, B. A.

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

Roth, M.

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

Rousseau, J. P.

Rousseau, P.

Rudolph, W.

Russek, U.

Sauerbrey, R.

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

Seyfried, V.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

Siegner, U.

Silberberg, Y.

D. Oron, N. Dudovich, D. Yelin, and Y. Silberberg, "Quantum control of coherent anti-Stokes Raman processes," Phys. Rev. A 65, 043408 (2002).
[CrossRef]

D. Meshulach, D. Yelin, and Y. Silberberg, "Adaptive real-time femtosecond pulse shaping," J. Opt. Soc. Am. B 15, 1615-1619 (1998).

Simon, U.

M. Muller, J. Squier, R. Wolleschensky, U. Simon, and G. J. Brakenhoff, "Dispersion pre-compensation of 15 femtosecond optical pulses for high-numerical-aperture objectives," J. Microsc. 191, 141-150 (1998).

Squier, J.

M. Muller, J. Squier, R. Wolleschensky, U. Simon, and G. J. Brakenhoff, "Dispersion pre-compensation of 15 femtosecond optical pulses for high-numerical-aperture objectives," J. Microsc. 191, 141-150 (1998).

Squier, J. A.

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

D. N. Fittinghoff, A. C. Millard, J. A. Squier, and M. Muller, "Frequency-resolved optical gating measurement of ultrashort pulses passing through a high numerical aperture objective," IEEE J. Quantum Electron. 35, 479-486 (1999).

D. N. Fittinghoff, J. A. Squier, C. P. J. Barty, J. N. Sweetser, R. Trebino, and M. Muller, "Collinear type II second-harmonic-generation frequency-resolved optical gating for use with high-numerical-aperture objectives," Opt. Lett. 23, 1046-1048 (1998).

Steinmeyer, G.

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, and U. Keller, "Techniques for the characterization of sub-10-fs optical pulses: a comparison," Appl. Phys. B 70, (Suppl.) S67-S75 (2000).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, U. Keller, C. Iaconis, and I. A. Walmsley, "Characterization of sub-6-fs optical pulses with spectral phase interferometry for direct electric-field reconstruction," Opt. Lett. 24, 1314-1316 (1999).

Stobrawa, G.

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

Strehle, M.

A. Assion, T. Baumert, M. Bergt, T. Brixner, B. Kiefer, V. Seyfried, M. Strehle, and G. Gerber, "Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses," Science 282, 919-922 (1998).

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

Sutoh, Y.

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

Sutter, D. H.

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, and U. Keller, "Techniques for the characterization of sub-10-fs optical pulses: a comparison," Appl. Phys. B 70, (Suppl.) S67-S75 (2000).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, U. Keller, C. Iaconis, and I. A. Walmsley, "Characterization of sub-6-fs optical pulses with spectral phase interferometry for direct electric-field reconstruction," Opt. Lett. 24, 1314-1316 (1999).

Sweetser, J. N.

D. N. Fittinghoff, J. A. Squier, C. P. J. Barty, J. N. Sweetser, R. Trebino, and M. Muller, "Collinear type II second-harmonic-generation frequency-resolved optical gating for use with high-numerical-aperture objectives," Opt. Lett. 23, 1046-1048 (1998).

R. Trebino, K. W. DeLong, D. N. Fittinghoff, J. N. Sweetser, M. A. Krumbugel, B. A. Richman, and D. J. Kane, "Measuring ultrashort laser pulses in the time-frequency domain using frequency-resolved optical gating," Rev. Sci. Instrum. 68, 3277-3295 (1997).

Tournois, P.

Trebino, R.

Vandenheuvell, H. B.

B. Broers, H. B. V. Vandenheuvell, and L. D. Noordam, "Large interference effects of small chirp observed in 2-photon absorption," Opt. Commun. 91, 57-61 (1992).

Vdovin, G.

Villeneuve, D. M.

F. L. Legare, J. M. Fraser, D. M. Villeneuve, and P. B. Corkum, "Adaptive compression of intense 250-nm-bandwidth laser pulses," Appl. Phys. B 74, S279-S282 (2002).

Wada, O.

A. Neogi, H. Yoshida, T. Mozume, and O. Wada, "Enhancement of interband optical nonlinearity by manipulation of intersubband transitions in an undoped semiconductor quantum well," Opt. Commun. 159, 225-229 (1999).

Walmsley, I. A.

Walowicz, K. A.

J. M. Dela Cruz, I. Pastirk, V. V. Lozovoy, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. 3: Probing microscopic chemical environments," J. Phys. Chem. A 108, 53-58 (2004).

V. V. Lozovoy, I. Pastirk, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. II. Control of two- and three-photon laser induced fluorescence with shaped pulses," J. Chem. Phys. 118, 3187-3196 (2003).

I. Pastirk, J. M. Dela Cruz, K. A. Walowicz, V. V. Lozovoy, and M. Dantus, "Selective two-photon microscopy with shaped femtosecond pulses," Opt. Express 11, 1695-1701 (2003).

K. A. Walowicz, I. Pastrik, V. V. Lozovoy, and M. Dantus, "Multiphoton intrapulse interference. 1. Control of multiphoton processes in condensed phases," J. Phys. Chem. A 106, 9369-9373 (2002).

Weber, P. M.

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

Weinacht, T. C.

J. Ahn, T. C. Weinacht, and P. H. Bucksbaum, "Information storage and retrieval through quantum phase," Science 287, 463-465 (2000).

Weiner, A. M.

A. M. Weiner, "Femtosecond pulse shaping using spatial light modulators," Rev. Sci. Instrum. 71, 1929-1960 (2000).

A. M. Weiner, "Programmable shaping of femtosecond optical pulses by use of 128-element liquid-crystal phase modulator," IEEE J. Quantum Electron. 28, 908-920 (1992).

White, W. E.

Wiersma, D. A.

A. Baltuska, M. S. Pshenichnikov, and D. A. Wiersma, "Second-harmonic generation frequency-resolved optical gating in the single-cycle regime," IEEE J. Quantum Electron. 35, 459-478 (1999).

A. Baltuska, M. S. Pshenichnikov, and D. A. Wiersma, "Amplitude and phase characterization of 4.5-fs pulses by frequency-resolved optical gating," Opt. Lett. 23, 1474-1476 (1998).

Wilson, K. R.

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

Wolleschensky, R.

M. Muller, J. Squier, R. Wolleschensky, U. Simon, and G. J. Brakenhoff, "Dispersion pre-compensation of 15 femtosecond optical pulses for high-numerical-aperture objectives," J. Microsc. 191, 141-150 (1998).

Yakovlev, V. V.

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

Yasuno, Y.

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

Yatagai, T.

Y. Yasuno, M. Nakama, Y. Sutoh, M. Itoh, M. Mori, and T. Yatagai, "Optical coherence tomography by spectral interferometric joint transform correlator," Opt. Commun. 186, 51-56 (2000).

Yelin, D.

D. Oron, N. Dudovich, D. Yelin, and Y. Silberberg, "Quantum control of coherent anti-Stokes Raman processes," Phys. Rev. A 65, 043408 (2002).
[CrossRef]

D. Meshulach, D. Yelin, and Y. Silberberg, "Adaptive real-time femtosecond pulse shaping," J. Opt. Soc. Am. B 15, 1615-1619 (1998).

Yoshida, H.

A. Neogi, H. Yoshida, T. Mozume, and O. Wada, "Enhancement of interband optical nonlinearity by manipulation of intersubband transitions in an undoped semiconductor quantum well," Opt. Commun. 159, 225-229 (1999).

Zeek, E.

Zeidler, D.

D. Zeidler, T. Hornung, D. Proch, and M. Motzkus, "Adaptive compression of tunable pulses from a non-collinear-type OPA to below 16 fs by feedback-controlled pulse shaping," Appl. Phys. B 70, S125-S131 (2000).

Appl. Phys. B (5)

T. Baumert, T. Brixner, V. Seyfried, M. Strehle, and G. Gerber, "Femtosecond pulse shaping by an evolutionary algorithm with feedback," Appl. Phys. B 65, 779-782 (1997).

D. Zeidler, T. Hornung, D. Proch, and M. Motzkus, "Adaptive compression of tunable pulses from a non-collinear-type OPA to below 16 fs by feedback-controlled pulse shaping," Appl. Phys. B 70, S125-S131 (2000).

F. L. Legare, J. M. Fraser, D. M. Villeneuve, and P. B. Corkum, "Adaptive compression of intense 250-nm-bandwidth laser pulses," Appl. Phys. B 74, S279-S282 (2002).

M. Hacker, R. Netz, M. Roth, G. Stobrawa, T. Feurer, and R. Sauerbrey, "Frequency doubling of phase-modulated, ultrashort laser pulses," Appl. Phys. B 73, 273-277 (2001).

L. Gallmann, D. H. Sutter, N. Matuschek, G. Steinmeyer, and U. Keller, "Techniques for the characterization of sub-10-fs optical pulses: a comparison," Appl. Phys. B 70, (Suppl.) S67-S75 (2000).

Chem. Phys. Chem. (1)

V. V. Lozovoy and M. Dantus, "Systematic control of nonlinear optical processes using optimally shaped femtosecond pulses," Chem. Phys. Chem. 65, 1952-1967 (2005).

Chem. Phys. Lett. (1)

V. V. Lozovoy and M. Dantus, "Photon echo pulse sequences with femtosecond shaped laser pulses as a vehicle for molecule-based quantum computation," Chem. Phys. Lett. 351, 213-221 (2002).

IEEE J. Quantum Electron. (3)

A. M. Weiner, "Programmable shaping of femtosecond optical pulses by use of 128-element liquid-crystal phase modulator," IEEE J. Quantum Electron. 28, 908-920 (1992).

D. N. Fittinghoff, A. C. Millard, J. A. Squier, and M. Muller, "Frequency-resolved optical gating measurement of ultrashort pulses passing through a high numerical aperture objective," IEEE J. Quantum Electron. 35, 479-486 (1999).

A. Baltuska, M. S. Pshenichnikov, and D. A. Wiersma, "Second-harmonic generation frequency-resolved optical gating in the single-cycle regime," IEEE J. Quantum Electron. 35, 459-478 (1999).

J. Biomed. Opt. (1)

C. J. Bardeen, V. V. Yakovlev, J. A. Squier, K. R. Wilson, S. D. Carpenter, and P. M. Weber, "Effect of pulse shape on the efficiency of multiphoton processes: implications for biological microscopy," J. Biomed. Opt. 4, 362-367 (1999).

J. Chem. Phys. (1)

V. V. Lozovoy, I. Pastirk, K. A. Walowicz, and M. Dantus, "Multiphoton intrapulse interference. II. Control of two- and three-photon laser induced fluorescence with shaped pulses," J. Chem. Phys. 118, 3187-3196 (2003).

J. Microsc. (1)

M. Muller, J. Squier, R. Wolleschensky, U. Simon, and G. J. Brakenhoff, "Dispersion pre-compensation of 15 femtosecond optical pulses for high-numerical-aperture objectives," J. Microsc. 191, 141-150 (1998).

J. Opt. Soc. Am. (1)

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

J. Opt. Soc. Am. B (3)

J. Phys. Chem. A (4)

K. A. Walowicz, I. Pastrik, V. V. Lozovoy, and M. Dantus, "Multiphoton intrapulse interference. 1. Control of multiphoton processes in condensed phases," J. Phys. Chem. A 106, 9369-9373 (2002).

I. Pastirk, M. Kangas, and M. Dantus, "Multidimensional analytical method based on binary phase shaping of femtosecond pulses," J. Phys. Chem. A 109, 2413-2416(2005).

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[CrossRef]

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