Numerical solutions of Maxwell-Bloch equations show that fast turn-on of resonant CW lasers in atomic vapors produces trains of damped solitons or simultons as transients before relaxing to stationary self-induced transparency.
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Derives vector 0π pulse as fundamental SIT solution in anisotropic media via reduction perturbation method applied to coupled NLS equations.
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Self-induced transparency and optical transients in atomic vapors
Numerical solutions of Maxwell-Bloch equations show that fast turn-on of resonant CW lasers in atomic vapors produces trains of damped solitons or simultons as transients before relaxing to stationary self-induced transparency.
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Vector $0\pi$ pulse in anisotropic media
Derives vector 0π pulse as fundamental SIT solution in anisotropic media via reduction perturbation method applied to coupled NLS equations.