Y. D. Jang scite author profile

We report the observation of coherent lattice vibrations in mono- and few-layer WSe2 in the time domain, which were obtained by performing time-resolved transmission measurements. Upon the excitation of ultrashort pulses with the energy resonant to that of A excitons, coherent oscillations of the A1g optical phonon and longitudinal acoustic phonon at the M point of the Brillouin zone (LA(M)) were impulsively generated in monolayer WSe2. In multilayer WSe2 flakes, the interlayer breathing mode (B1) is found to be sensitive to the number of layers, demonstrating its usefulness in characterizing layered transition metal dichalcogenide materials. On the basis of temperature-dependent measurements, we find that the A1g optical phonon mode decays into two acoustic phonons through the anharmonic decay process.

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Monolithic dual-mode distributed feedback semiconductor laser for tunable continuous-wave terahertz generation

Kim

et al. 2009

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We report on a monolithic dual-mode semiconductor laser operating in the 1550-nm range as a compact optical beat source for tunable continuous-wave (CW) terahertz (THz) generation. It consists of two distributed feedback (DFB) laser sections and one phase section between them. Each wavelength of the two modes can be independently tuned by adjusting currents in micro-heaters which are fabricated on the top of the each DFB section. The continuous tuning of the CW THz emission from Fe(+)-implanted InGaAs photomixers is successfully demonstrated using our dual-mode laser as the excitation source. The CW THz frequency is continuously tuned from 0.17 to 0.49 THz.

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Carrier lifetimes in type-II InAs quantum dots capped with a GaAsSb strain reducing layer

Jang

Badcock

Mowbray

et al. 2008

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Carrier lifetimes have been measured for long-wavelength emitting InAs quantum dots (QDs) capped with a thin GaAsSb layer. Above a critical Sb composition, a type-II system is formed, resulting in an increase in the carrier lifetime. The carrier lifetime in a strongly type-II structure is increased by a factor ∼54 in comparison to the lifetime in a type-I structure. In addition, the type-II carrier lifetime varies across the inhomogeneously broadened ground-state emission, while the type-I QD lifetime is invariant.

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Three-Dimensional Plasmonic Nanocluster-Driven Light–Matter Interaction for Photoluminescence Enhancement and Picomolar-Level Biosensing

et al. 2022

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Plasmonic nanoparticle clusters promise to support unique engineered electromagnetic responses at optical frequencies, realizing a new concept of devices for nanophotonic applications. However, the technological challenges associated with the fabrication of three-dimensional nanoparticle clusters with programmed compositions remain unresolved. Here, we present a novel strategy for realizing heterogeneous structures that enable efficient near-field coupling between the plasmonic modes of gold nanoparticles and various other nanomaterials via a simple three-dimensional coassembly process. Quantum dots embedded in the plasmonic structures display ∼56 meV of a blue shift in the emission spectrum. The decay enhancement factor increases as the total contribution of radiative and nonradiative plasmonic modes increases. Furthermore, we demonstrate an ultracompact diagnostic platform to detect M13 viruses and their mutations from femtoliter volume, sub-100 pM analytes. This platform could pave the way toward an effective diagnosis of diverse pathogens, which is in high demand for handling pandemic situations.

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Design for an efficient single photon source based on a single quantum dot embedded in a parabolic solid immersion lens

Devaraj¹,

Baek²,

Jang³

et al. 2016

Opt. Express

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We have designed a single photon emitter based on a single quantum dot embedded within a single mode parabolic solid immersion lens (pSIL) and a capping low-index pSIL. Numerical simulations predicted that the emitter performance should exhibit a high photon collection efficiency with excellent far-field emission properties, broadband operation, and good tolerance in its geometric (spatial configuration) parameters. Good geometric tolerance in a single-mode pSIL without yielding significant losses in the photon collection efficiency is advantageous for device fabrication. The low-index top pSIL layer provided this structure with a high photon collection efficiency, even in the case of a small numerical aperture (NA). Photon collection efficiencies of 64% and 78% were expected for NA values of 0.41 and 0.5, respectively. In addition to the benefits listed above, our combined pSIL design provided excellent broadband performance in a 100 nm range.

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Y. D. Jang

Coherent Lattice Vibrations in Mono- and Few-Layer WSe₂

Monolithic dual-mode distributed feedback semiconductor laser for tunable continuous-wave terahertz generation

Carrier lifetimes in type-II InAs quantum dots capped with a GaAsSb strain reducing layer

Three-Dimensional Plasmonic Nanocluster-Driven Light–Matter Interaction for Photoluminescence Enhancement and Picomolar-Level Biosensing

Design for an efficient single photon source based on a single quantum dot embedded in a parabolic solid immersion lens

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About

Y. D. Jang

Coherent Lattice Vibrations in Mono- and Few-Layer WSe2

Monolithic dual-mode distributed feedback semiconductor laser for tunable continuous-wave terahertz generation

Carrier lifetimes in type-II InAs quantum dots capped with a GaAsSb strain reducing layer

Three-Dimensional Plasmonic Nanocluster-Driven Light–Matter Interaction for Photoluminescence Enhancement and Picomolar-Level Biosensing

Design for an efficient single photon source based on a single quantum dot embedded in a parabolic solid immersion lens

Contact Info

Product

Resources

About

Coherent Lattice Vibrations in Mono- and Few-Layer WSe₂