Journal
OPTICS EXPRESS
Volume 13, Issue 21, Pages 8642-8661Publisher
OPTICAL SOC AMER
DOI: 10.1364/OPEX.13.008642
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We present a rigorous, but mathematically relatively simple and elegant, theory of first-order spatio-temporal distortions, that is, couplings between spatial ( or spatial-frequency) and temporal (or frequency) coordinates, of Gaussian pulses and beams. These distortions include pulsefront tilt, spatial dispersion, angular dispersion, and a less well-known distortion that has been called time vs. angle. We write pulses in four possible domains, xt, x omega, k omega, and kt; and we identify the first-order couplings ( distortions) in each domain. In addition to the above four amplitude couplings, we identify four new spatio-temporal phase couplings: wave-front rotation, wave-front-tilt dispersion, angular temporal chirp, and angular frequency chirp. While there are eight such couplings in all, only two independent couplings exist and are fundamental in each domain, and we derive simple expressions for each distortion in terms of the others. In addition, because the dimensions and magnitudes of these distortions are unintuitive, we provide normalized, dimensionless definitions for them, which range from -1 to 1. Finally, we discuss the definitions of such quantities as pulse length, bandwidth, angular divergence, and spot size in the presence of spatio-temporal distortions. We show that two separate definitions are required in each case, specifically, local and global quantities, which can differ significantly in the presence of spatio-temporal distortions. (c) 2005 Optical Society of America.
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