Generation of coherent terahertz radiation with multifrequency modes in a Fibonacci optical superlattice

We investigate theoretically the generation of coherent narrow-band terahertz (THz) radiation with multifrequency modes in an optical superlattice produced by quasiperiodically poled ferroelectric crystal. The superlattice consists of two building blocks A and B, in which each containing a pair of a...

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Published in:Applied physics letters 2003-08, Vol.83 (6), p.1071-1073
Main Authors: Qin, Yi-qiang, Su, Hong, Tang, Sing-hai
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Language:English
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description We investigate theoretically the generation of coherent narrow-band terahertz (THz) radiation with multifrequency modes in an optical superlattice produced by quasiperiodically poled ferroelectric crystal. The superlattice consists of two building blocks A and B, in which each containing a pair of antiparallel 180° ferroelectric domains, arranged as a Fibonacci sequence. Second-order nonlinear optical rectification of femtosecond pulses gives rise to a THz wave form whose multifrequency modes are determined by the quasiperiodic structure properties. The relationship between multifrequency modes terahertz generation and Fibonacci structure parameters is also analyzed and studied.
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title Generation of coherent terahertz radiation with multifrequency modes in a Fibonacci optical superlattice
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