Revival structures in picosecond laser-induced alignment of I2 molecules. I. Experimental results

We report experiments on the formation of wave packets consisting of coherently excited ground electronic state rotational levels of I2, using excitation with an intense nonresonant picosecond laser. As measured in a velocity-map-imaging experiment using Coulomb explosion for the determination of the angular distribution of the molecules, these wave packets display alignment of the internuclear axis along the laser polarization axis, both during the laser interaction and at well-defined time delays following the laser interaction, which correspond to rotational revival times of the molecule. The alignment is studied as a function of the intensity and the pulse duration of the pump laser, the rotational temperature of the molecular beam, the polarization geometry of the pump and probe lasers, and the fragment-ion-charge state used to probe the alignment. We observe experimentally that the alignment at revival times is maximal for intermediate pulse durations of a few picoseconds, where the laser–molecule i...

[1]  V. McKoy,et al.  Energy- and angle-resolved pump–probe femtosecond photoelectron spectroscopy: Molecular rotation , 2001 .

[2]  D. Proch,et al.  A high‐intensity multi‐purpose piezoelectric pulsed molecular beam source , 1989 .

[3]  L. DiMauro,et al.  Aberration-free stretcher design for ultrashort-pulse amplification. , 1995, Optics letters.

[4]  Mirta Rodríguez,et al.  Time evolution of pendular states created by the interaction of molecular polarizability with a pulsed nonresonant laser field , 1999 .

[5]  Friedrich,et al.  Alignment and trapping of molecules in intense laser fields. , 1995, Physical review letters.

[6]  P. Felker,et al.  Spectroscopy of pendular states in optical‐field‐aligned species , 1996 .

[7]  E. Springate,et al.  Spatial alignment of diatomic molecules in intense laser fields: I. Experimental results , 2001 .

[8]  M. Vrakking,et al.  Revival structures in picosecond laser-induced alignment of I2 molecules. II. Numerical modeling , 2002 .

[9]  C. Dion,et al.  Laser-induced molecular rotational dynamics: A high-frequency Floquet approach , 2000 .

[10]  A. Zewail,et al.  Doppler-free time-resolved polarization spectroscopy of large molecules: Measurement of excited state rotational constants , 1986 .

[11]  André D. Bandrauk,et al.  Molecules in Laser Fields , 1995 .

[12]  Corkum,et al.  Molecular reorientation during dissociative multiphoton ionization. , 1993, Physical review. A, Atomic, molecular, and optical physics.

[13]  J. Marangos,et al.  Orientation dependence of high-order harmonic generation in hydrogen molecular ions , 2000 .

[14]  G. Kumar,et al.  Dynamic and geometric alignment of CS 2 in intense laser fields of picosecond and femtosecond duration , 1999, physics/9908059.

[15]  E. Springate,et al.  Spatial alignment of diatomic molecules in intense laser fields: II. Numerical modelling , 2001 .

[16]  Steven M. Block,et al.  Making light work with optical tweezers , 1992, Nature.

[17]  T. Seideman Revival Structure of Aligned Rotational Wave Packets , 1999 .

[18]  Muller,et al.  Multiphoton ionization of xenon with 100-fs laser pulses. , 1988, Physical review letters.

[19]  Yin,et al.  Interference between optical transitions. , 1990, Physical review letters.

[20]  C. Barty,et al.  Ultrahigh-peak and high-average power chirped-pulse amplification of sub-20-fs pulses with Ti:sapphire amplifiers , 1998 .

[21]  C. Cornaggia,et al.  Laser-induced molecular alignment probed by a double-pulse experiment , 1992 .

[22]  T. Seideman,et al.  Molecular alignment from femtosecond time-resolved photoelectron angular distributions: Nonperturbative calculations on NO , 1999 .

[23]  P. Corkum,et al.  Disentangling molecular alignment and enhanced ionization in intense laser fields , 1999 .

[24]  D. Herschbach,et al.  Manipulating Molecules via Combined Static and Laser Fields , 1999 .

[25]  P. Taday,et al.  Dynamic and geometric laser-induced alignment of molecules in intense laser fields , 1998 .

[26]  Ivanov,et al.  Role of electron localization in intense-field molecular ionization. , 1995, Physical review letters.

[27]  T. Gustafson,et al.  Observation of Coherent Transient Birefringence in CS 2 Vapor , 1975 .

[28]  M. Vrakking,et al.  Experimental observation of revival structures in picosecond laser-induced alignment of I2. , 2001, Physical review letters.

[29]  M. Vrakking An iterative procedure for the inversion of two-dimensional ion/photoelectron imaging experiments , 2001 .

[30]  Schumacher,et al.  Softening of the H2+ molecular bond in intense laser fields. , 1990, Physical review letters.

[31]  M. Dantus,et al.  Femtosecond transient-grating techniques: Population and coherence dynamics involving ground and excited states , 1999 .

[32]  J. Tellinghuisen Resolution of the visible‐infrared absorption spectrum of I2 into three contributing transitions , 1973 .

[33]  Bucksbaum,et al.  Light-induced vibrational structure in H2+ and D2+ in intense laser fields. , 1993, Physical review letters.

[34]  T. Seideman,et al.  Coherent Control of Chemical Reactions , 1999 .

[35]  B. J. Whitaker,et al.  Photoelectron imaging on time-dependent molecular alignment created by a femtosecond laser pulse. , 2001, Physical review letters.

[36]  M. Vrakking,et al.  Coherent control of molecular orientation , 1997 .

[37]  David H. Parker,et al.  Velocity map imaging of ions and electrons using electrostatic lenses: Application in photoelectron and photofragment ion imaging of molecular oxygen , 1997 .

[38]  A. Weiner Femtosecond pulse shaping using spatial light modulators , 2000 .

[39]  M. Castillejo,et al.  High-Order Harmonic Generation in Aligned Molecules , 2001 .

[40]  H. Stapelfeldt,et al.  Aligning molecules with intense nonresonant laser fields , 1999 .

[41]  Ross,et al.  Femtosecond dynamics of multielectron dissociative ionization by use of a picosecond laser. , 1987, Physical review letters.

[42]  L. Frasinski,et al.  The dissociation dynamics of diatomic molecules in intense laser fields , 1996 .

[43]  Yong P. Chen,et al.  Tensor analysis of femtosecond Raman induced polarization spectroscopy: Application to the study of rotational coherence , 1995 .

[44]  T. Hornung,et al.  Optimal control of molecular states in a learning loop with a parameterization in frequency and time domain , 2000 .

[45]  Gerber,et al.  Control of chemical reactions by feedback-optimized phase-shaped femtosecond laser pulses , 1998, Science.

[46]  H. Loesch,et al.  Orientation and alignment in reactive beam collisions: recent progress. , 1995, Annual review of physical chemistry.

[47]  P. Corkum,et al.  Molecular science with strong laser fields , 1999 .

[48]  P. d'Oliveira,et al.  Fragment-emission patterns from the Coulomb explosion of diatomic molecules in intense laser fields , 1999 .