Beating spatio-temporal coupling: Implications for pulse shaping and coherent control experiments

Diffraction of finite sized laser beams imposes a limit on the control that can be exerted over ultrafast pulses. This limit manifests as spatio-temporal coupling induced in standard implementations of pulse shaping schemes. We demonstrate the influence this has on coherent control experiments that...

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Detalles Bibliográficos
Autores principales: Brinks, D., Hildner, R., Stefani, F.D., Van Hulst, N.F.
Formato: JOUR
Materias:
Diffraction
Laser beams
Coherent control
Detection volume
Diffraction limits
Orders of magnitude
Pulse stretching
Single molecule
Spatio temporal
Ultrafast pulse
Pulse shaping
nanomaterial
article
chemical model
chemistry
computer simulation
genetic procedures
light
radiation scattering
signal processing
Computer Simulation
Light
Models, Chemical
Molecular Probe Techniques
Nanostructures
Scattering, Radiation
Signal Processing, Computer-Assisted
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_10944087_v19_n27_p26486_Brinks
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:Diffraction of finite sized laser beams imposes a limit on the control that can be exerted over ultrafast pulses. This limit manifests as spatio-temporal coupling induced in standard implementations of pulse shaping schemes. We demonstrate the influence this has on coherent control experiments that depend on finite excitation, sample, and detection volumes. Based on solutions used in pulse stretching experiments, we introduce a double-pass scheme that reduces the errors produced through spatio-temporal coupling by at least one order of magnitude. Finally, employing single molecules as nanoscale probes, we prove that such a double pass scheme is capable of artifact-free pulse shaping at dimensions two orders of magnitude smaller than the diffraction limit. © 2011 Optical Society of America.

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