Generation, tuning, and shaping of narrow-band, picosecond THz pulses by two-beam excitation

A. G. Stepanov; J. Hebling; J. Kuhl

doi:10.1364/OPEX.12.004650

Optics Express
Vol. 12,
Issue 19,
pp. 4650-4658
(2004)
•https://doi.org/10.1364/OPEX.12.004650

Generation, tuning, and shaping of narrow-band, picosecond THz pulses by two-beam excitation

A. G. Stepanov, J. Hebling, and J. Kuhl

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A. G. Stepanov, J. Hebling, and J. Kuhl, "Generation, tuning, and shaping of narrow-band, picosecond THz pulses by two-beam excitation," Opt. Express 12, 4650-4658 (2004)

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Abstract

We demonstrate the use of a transient polarization grating induced by two femtosecond laser pulses propagating in a LiNbO₃ crystal for the generation of frequency tunable, narrow-band, picosecond THz pulses. Employing pump pulses with 150 fs duration and 2 μJ energy, the generated THz pulse has an energy up to 1.8 pJ, a pulse duration of 3 – 5 ps and a bandwidth of 0.1 THz. The central frequency can be tuned in the range from 0.5 to 3 THz. The generation efficiency of the transient grating method in comparison to other techniques is discussed. The possibility of shaping the temporal waveform of the THz pulses by simply shaping the spatial intensity distribution of the pump pulses is demonstrated.

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Fig. 1. Transient grating THz generation by two-beam excitation.

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Fig. 2. Experimental set-up.

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Fig. 3. Left panel: THz waveforms measured for 3 different angles (0.35⁰ (a), 1.3⁰ (b), and 1.9⁰ (c)) between the two excitation beams. Middle panel: normalized power spectra calculated by fast Fourier transformation of the time domain data. Right panel: THz frequency versus the angle between the two pump laser beams.

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Fig. 4. Frequency dependence of the (a) measured and (b) predicted energy of the generated THz pulses.

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Fig. 5. Illustration of simple THz waveform shaping.

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Equations (1)

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Δ t_{THz} = \frac{k \cdot D \cdot \sin γ}{v_{THz}},

Abstract

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