Advanced methods for the characterization of few-cycle light pulses: a comparison
Applied Physics B-Lasers And Optics 83 (2006) 4
Abstract:
We discuss and compare four methods for measuring the width and pulse profile of ultrashort pulses. For our comparison, we use stable sub-7 fs pulses from a Ti:sapphire oscillator. Interferometric autocorrelation,spectral phase interferometry for direct electric-field reconstruction (SPIDER), a spatially-encoded variant of SPIDER, and interferometric frequency-resolved optical gating (IFROG) are utilized for characterizing pulses from the oscillator. The methods are found to agree within 5% as far as determination of the pulse width is concerned. However,differences are observed in the satellite structure reconstructed by either method. The current state of the art of measuring ultrashort pulses with these methods is reviewed and current limitations, in particular for characterizing complex pulse shapes, are discussed.Coherent control of ultracold molecule dynamics in a magneto-optical trap using chirped femtosecond laser pulses
Physical Review Letters 96 (2006) 173002 4pp
Simplified spectral phase interferometry for direct electric-field reconstruction by using a thick nonlinear crystal.
Opt Lett 31:7 (2006) 1008-1010
Abstract:
We propose and demonstrate a novel implementation of spectral-shearing interferometry (SSI) for reconstructing the electric field of ultrashort pulses by utilizing asymmetric group velocity matching in a long nonlinear crystal. The proposed configuration eliminates the requirement for a linearly chirped auxiliary pulse that is in common in all existing SSI methods, relying on nonlinear conversion to produce a spectral shear.Analysis of some intuitive approaches to the coherent control of state-selected ultracold molecules
JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS 39:19 (2006) S1055-S1075
Encoding a qubit into multilevel subspaces
NEW JOURNAL OF PHYSICS 8 (2006) ARTN 35