Accumulation effects in modulation spectroscopy with high-repetition-rate pulses : Recursive solution of optical Bloch equations

Application of the phase-modulated pulsed light for advance spectroscopic measurements is the area of growing interest. The phase modulation of the light causes modulation of the signal. Separation of the spectral components of the modulations allows to distinguish the contributions of various interaction pathways. The lasers with high repetition rate used in such experiments can lead to appearance of the accumulation effects, which become especially pronounced in systems with long-living excited states. Recently it was shown that such accumulation effects can be used to evaluate parameters of the dynamical processes in the material. In this work we demonstrate that the accumulation effects are also important in the quantum characteristics measurements provided by modulation spectroscopy. In particular, we consider a model of quantum two-level system driven by a train of phase-modulated light pulses, organized in analogy with the two-dimensional spectroscopy experiments. We evaluate the harmonics' amplitudes in the fluorescent signal and calculate corrections appearing from the accumulation effects. We show that the corrections can be significant and have to be taken into account at analysis of experimental data. (Less)

[1]  F. Stienkemeier,et al.  Phase-modulated harmonic light spectroscopy. , 2017, Optics express.

[2]  S. Mukamel Communication: The origin of many-particle signals in nonlinear optical spectroscopy of non-interacting particles. , 2016, The Journal of chemical physics.

[3]  T. Pullerits,et al.  Nature of relaxation processes revealed by the action signals of intensity-modulated light fields , 2016, 1605.04231.

[4]  F. Stienkemeier,et al.  Efficient isolation of multiphoton processes and detection of collective resonances in dilute samples , 2015, 1509.01137.

[5]  T. Pullerits,et al.  Isolation of coherent and incoherent nonlinear spectroscopic signals by phase modulation , 2015, 1505.07617.

[6]  Tõnu Pullerits,et al.  Coherent two-dimensional photocurrent spectroscopy in a PbS quantum dot photocell , 2014, Nature Communications.

[7]  K. Venkatakrishnan,et al.  High repetition rate femtosecond laser forming sub-10 µm diameter interconnection vias , 2009 .

[8]  Patrick F. Tekavec,et al.  Fluorescence-detected two-dimensional electronic coherence spectroscopy by acousto-optic phase modulation. , 2007, The Journal of chemical physics.

[9]  S. Mukamel,et al.  A coherent nonlinear optical signal induced by electron correlations. , 2007, The Journal of chemical physics.

[10]  Patrick F. Tekavec,et al.  Wave packet interferometry and quantum state reconstruction by acousto-optic phase modulation. , 2006, The Journal of chemical physics.

[11]  B. Jaeggi,et al.  Surface Structuring with Ultra-short Laser Pulses: Basics, Limitations and Needs for High Throughput , 2014 .