Taek Il Oh scite author profile

We observe off-axis phase-matched terahertz generation in long air-plasma filaments produced by femtosecond two-color laser focusing. Here, phase matching naturally occurs due to off-axis constructive interference between locally generated terahertz waves, and this determines the far-field terahertz radiation profiles and yields. For a filament longer than the characteristic two-color dephasing length, it emits conical terahertz radiation in the off-axis direction, peaked at 4-7° depending on the radiation frequencies. The total terahertz yield continuously increases with the filament length, well beyond the dephasing length. The phase-matching condition observed here provides a simple method for scalable terahertz generation in elongated plasmas.

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Intense terahertz generation in two-color laser filamentation: energy scaling with terawatt laser systems

You

Jhajj

et al. 2013

New J. Phys.

175

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We investigate high-power terahertz (THz) generation in two-color laser filamentation using terawatt (TW) lasers including a 0.5 TW, 1 kHz system, as well as 2 and 30 TW systems both operating at 10 Hz. With these lasers, we study the macroscopic effect in filamentation that governs THz output energy yields and radiation profiles in the far field. We also characterize the radiation spectra at a broad range of frequencies covering radio-micro-waves to infrared frequencies. In particular, our 1 kHz THz source can provide high-energy (>1 µJ), high average power (>1 mW), intense (>1 MV cm −1 ) and broadband (0.01-60 THz) THz radiation via two-color filamentation in air. Based on our scaling law, an ∼30 TW laser can produce >0.1 mJ of THz radiation with multigigawatt peak power in ∼1.5 m long filamentation.

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Generation of strong terahertz fields exceeding 8 MV/cm at 1 kHz and real-time beam profiling

Yoo

You

et al. 2014

143

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We demonstrate high-field (>8 MV/cm) terahertz generation at a high-repetition-rate (1 kHz) via two-color laser filamentation. Here, we use a cryogenically cooled femtosecond laser amplifier capable of producing 30 fs, 15 mJ pulses at 1 kHz as a driver, along with a combination of a thin dual-wavelength half-waveplate and a Brewster-angled silicon window to enhance terahertz generation and transmission. We also introduce a cost-effective, uncooled microbolometer camera for real-time terahertz beam profiling with two different modes.

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Mechanism of elliptically polarized terahertz generation in two-color laser filamentation

You

Kim

2013

Opt. Lett.

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We investigate the mechanism of elliptically polarized terahertz (THz) pulse generation in femtosecond two-color laser-produced plasma. In the case of in-line laser focusing, we observe the THz polarization evolves from linear to elliptical with increasing plasma length. This ellipticity arises from two combined effects--successive polarization rotation of local THz plasma sources, caused by laser phase and polarization modulations, and the velocity mismatch between laser and THz, which produces an elliptical THz pulse from a series of time-delayed, polarization-rotating local THz fields.

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Two-dimensional plasma current and optimized terahertz generation in two-color photoionization

Oh¹,

You²,

Kim³

2012

Opt. Express

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Taek Il Oh

Off-Axis Phase-Matched Terahertz Emission from Two-Color Laser-Induced Plasma Filaments

Intense terahertz generation in two-color laser filamentation: energy scaling with terawatt laser systems

Generation of strong terahertz fields exceeding 8 MV/cm at 1 kHz and real-time beam profiling

Mechanism of elliptically polarized terahertz generation in two-color laser filamentation

Two-dimensional plasma current and optimized terahertz generation in two-color photoionization

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