J. D. Wynn scite author profile

We present new designs of more efficient terahertz (THz) radiation emitters and detectors enhanced by electric field singularities using sharp and laterally offset electrodes. We compare the performances of the terahertz emission and different polarization properties resulting from these structures. An average THz radiation power of 3 μW is achieved under 20 mW excitation, calibrated by free space electro-optic sampling. We also study the gap size dependence of the THz radiation, and find an absence of a positive electrode effect in the small gap limit.

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High-power laser light source for near-field optics and its application to high-density optical data storage

Partovi¹,

Peale²,

Wuttig³

et al. 1999

165

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A laser light source for high-resolution near-field optics applications with an output power exceeding 1 mW (104 times the power from previous sources) and small (300 nm square to less than 50 nm square) output beam size is demonstrated. The very-small-aperture laser (VSAL) tremendously expands the range of applications possible with near-field optics and increases the signal-to-noise ratios and data rates obtained in existing applications. As an example, 250-nm-diam marks corresponding to 7.5 Gb/in.2 storage density have been recorded and read back in reflection and transmission on a rewritable phase-change disk at 24 Mb/s with a 250-nm-square aperture VSAL. VSALs potentially enable data storage densities of over 500 Gb/in.2 (up to 100 times today’s magnetic or optical storage densities).

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Collection-mode near-field imaging with 0.5-THz pulses

Mitrofanov¹,

Lee²,

Hsu³

et al. 2001

IEEE J. Select. Topics Quantum Electron.

115

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Coherent terahertz radiation detection: Direct comparison between free-space electro-optic sampling and antenna detection

Cai¹,

Brener²,

Lopata³

et al. 1998

142

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We compare the use of free-space electro-optic sampling ͑FSEOS͒ with photoconducting antennas to detect terahertz ͑THz͒ radiation in the range of 0.1-3 THz. For the same average THz power and low-frequency modulation, signal-to-noise ratio and sensitivity are better with antenna detection at frequencies smaller than 3 THz. When the modulation frequency is increased to more than 1 MHz in FSEOS, both detection schemes have comparable performance. Using a singular-electric-field THz emitter, we demonstrate the feasibility of a THz imaging system using real-time delay scanning in FSEOS and only 20 mW of laser power. ͓S0003-6951͑98͒03930-8͔

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Performance of gain-guided surface emitting lasers with semiconductor distributed Bragg reflectors

Hasnain

Tai

Yang

et al. 1991

IEEE J. Quantum Electron.

185

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J. D. Wynn

Design and performance of singular electric field terahertz photoconducting antennas

High-power laser light source for near-field optics and its application to high-density optical data storage

Collection-mode near-field imaging with 0.5-THz pulses

Coherent terahertz radiation detection: Direct comparison between free-space electro-optic sampling and antenna detection

Performance of gain-guided surface emitting lasers with semiconductor distributed Bragg reflectors

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