Svetlana Malinovskaya
Svetlana Malinovskaya
Professor of Physics, Stevens Institute of Technology, Castle Point on Hudson, Hoboken, NJ 07030
Verified email at - Homepage
Cited by
Cited by
Delocalization mechanism of ferromagnetic exchange interactions in complexes of copper (II) with nitroxyl radicals
RN Musin, PV Schastnev, SA Malinovskaya
Inorganic Chemistry 31 (20), 4118-4121, 1992
From atomic to mesoscale: The role of quantum coherence in systems of various complexities
S Malinovskaya, I Novikova
World Scientific, 2015
(η3‐Phenylallyl)(phosphanyloxazoline)palladium Complexes: X‐Ray Crystallographic Studies, NMR Investigations, and Ab Initio/DFT Calculations
M Kollmar, H Steinhagen, JP Janssen, B Goldfuss, SA Malinovskaya, ...
Chemistry–A European Journal 8 (14), 3103-3114, 2002
Chirped-pulse adiabatic control in coherent anti-Stokes Raman scattering for imaging of biological structure and dynamics
SA Malinovskaya, VS Malinovsky
Optics letters 32 (6), 707-709, 2007
Theory of selective excitation in stimulated Raman scattering
SA Malinovskaya, PH Bucksbaum, PR Berman
Physical Review A 69 (1), 013801, 2004
Optimal control of population and coherence in three-level Λ systems
P Kumar, SA Malinovskaya, VS Malinovsky
Journal of Physics B: Atomic, Molecular and Optical Physics 44 (15), 154010, 2011
Quantum control in multilevel systems
IR Sola, BY Chang, SA Malinovskaya, VS Malinovsky
Advances In Atomic, Molecular, and Optical Physics 67, 151-256, 2018
Mode-selective excitation using ultrafast chirped laser pulses
SA Malinovskaya
Physical Review A 73 (3), 033416, 2006
Stimulated Raman adiabatic passage as a route to achieving optical control in plasmonics
M Sukharev, SA Malinovskaya
Physical Review A 86 (4), 043406, 2012
Prevention of decoherence by two femtosecond chirped pulse trains
SA Malinovskaya
Optics letters 33 (19), 2245-2247, 2008
Manipulation of ultracold Rb atoms using a single linearly chirped laser pulse
TA Collins, SA Malinovskaya
Optics Letters 37 (12), 2298-2300, 2012
Implementation of a single femtosecond optical frequency comb for rovibrational cooling
W Shi, S Malinovskaya
Physical Review A 82 (1), 013407, 2010
Dynamics of proton-acetylene collisions at 30 eV
SA Malinovskaya, R Cabrera-Trujillo, J Sabin, E Deumens, Y Íhrn
The Journal of chemical physics 117 (3), 1103-1108, 2002
Chirped pulse control methods for imaging of biological structure and dynamics
S Malinovskaya
International Journal of Quantum Chemistry 107 (15), 3151-3158, 2007
Effects of phase and coupling between the vibrational modes on selective excitation in coherent anti-Stokes Raman scattering microscopy
V Patel, VS Malinovsky, S Malinovskaya
Physical Review A 81 (6), 063404, 2010
Design of many-body spin states of Rydberg atoms excited to highly tunable magnetic sublevels
SA Malinovskaya
Optics Letters 42 (2), 314-317, 2017
Population inversion in hyperfine states of Rb with a single nanosecond chirped pulse in the framework of a four-level system
G Liu, V Zakharov, T Collins, P Gould, SA Malinovskaya
Physical Review A 89 (4), 041803, 2014
Limits to remote molecular detection via coherent anti-Stokes Raman spectroscopy using a maximal coherence control technique
G Liu, FA Narducci, SA Malinovskaya
Journal of Modern Optics 67 (1), 21-25, 2020
Creation of the maximum coherence via adiabatic passage in the four-wave mixing process of coherent anti-Stokes Raman scattering
N Pandya, G Liu, FA Narducci, J Chathanathil, S Malinovskaya
Chemical Physics Letters 738, 136763, 2020
Adiabatic rapid passage two-photon excitation of a Rydberg atom
E Kuznetsova, G Liu, SA Malinovskaya
Physica Scripta 2014 (T160), 014024, 2014
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