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  • Man/System Technology and Life Support  (4)
  • Matter waves and collective properties of cold atoms and molecules  (1)
  • Polymer, Soft Matter, Biological, Climate, and Interdisciplinary Physics  (1)
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  • 1
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    Structures of Local Rearrangements in Soft Colloidal Glasses (2016)
    American Physical Society (APS)
    Details
    Publication Date: 2016-06-10
    Description: Author(s): Xiunan Yang, Rui Liu, Mingcheng Yang, Wei-Hua Wang, and Ke Chen We image local structural rearrangements in soft colloidal glasses under small periodic perturbations induced by thermal cycling. Local structural entropy S 2 positively correlates with observed rearrangements in colloidal glasses. The high S 2 values of the rearranging clusters in glasses indicate th… [Phys. Rev. Lett. 116, 238003] Published Thu Jun 09, 2016
    Keywords: Polymer, Soft Matter, Biological, Climate, and Interdisciplinary Physics
    Print ISSN: 0031-9007
    Electronic ISSN: 1079-7114
    Topics: Physics
    Published by American Physical Society (APS)
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    PAPER CURRENT
  • 2
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    Valley-dependent gauge fields for ultracold atoms in square optical superlattices (2014)
    American Physical Society (APS)
    Details
    Publication Date: 2014-01-22
    Description: Author(s): Dan-Wei Zhang, Chuan-Jia Shan, Feng Mei, Mou Yang, Rui-Qiang Wang, and Shi-Liang Zhu We propose an experimental scheme to realize the valley-dependent gauge fields for ultracold fermionic atoms trapped in a state-dependent square optical lattice. Our scheme relies on two sets of Raman laser beams to engineer the hopping between adjacent sites populated by two-component fermionic ato... [Phys. Rev. A 89, 015601] Published Tue Jan 21, 2014
    Keywords: Matter waves and collective properties of cold atoms and molecules
    Print ISSN: 1050-2947
    Electronic ISSN: 1094-1622
    Topics: Physics
    Published by American Physical Society (APS)
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  • 3
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    Adding GaAs Monolayers to InAs Quantum-Dot Lasers on (001) InP (2005)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: In a modification of the basic configuration of InAs quantum-dot semiconductor lasers on (001)lnP substrate, a thin layer (typically 1 to 2 monolayer thick) of GaAs is incorporated into the active region. This modification enhances laser performance: In particular, whereas it has been necessary to cool the unmodified devices to temperatures of about 80 K in order to obtain lasing at long wavelengths, the modified devices can lase at wavelengths of about 1.7 microns or more near room temperature. InAs quantum dots self-assemble, as a consequence of the lattice mismatch, during epitaxial deposition of InAs on ln0.53Ga0.47As/lnP. In the unmodified devices, the quantum dots as thus formed are typically nonuniform in size. Strainenergy relaxation in very large quantum dots can lead to poor laser performance, especially at wavelengths near 2 microns, for which large quantum dots are needed. In the modified devices, the thin layers of GaAs added to the active regions constitute potential-energy barriers that electrons can only penetrate by quantum tunneling and thus reduce the hot carrier effects. Also, the insertion of thin GaAs layer is shown to reduce the degree of nonuniformity of sizes of the quantum dots. In the fabrication of a batch of modified InAs quantum-dot lasers, the thin additional layer of GaAs is deposited as an interfacial layer in an InGaAs quantum well on (001) InP substrate. The device as described thus far is sandwiched between InGaAsPy waveguide layers, then further sandwiched between InP cladding layers, then further sandwiched between heavily Zn-doped (p-type) InGaAs contact layer.
    Keywords: Man/System Technology and Life Support
    Type: NPO-40243 , NASA Tech Briefs, May 2005; 27
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 4
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    Semiconductor Lasers Containing Quantum Wells in Junctions (2004)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: In a recent improvement upon In(x)Ga(1-x)As/InP semiconductor lasers of the bipolar cascade type, quantum wells are added to Esaki tunnel junctions, which are standard parts of such lasers. The energy depths and the geometric locations and thicknesses of the wells are tailored to exploit quantum tunneling such that, as described below, electrical resistances of junctions and concentrations of dopants can be reduced while laser performances can be improved. In(x)Ga(1-x)As/InP bipolar cascade lasers have been investigated as sources of near-infrared radiation (specifically, at wavelengths of about 980 and 1,550 nm) for photonic communication systems. The Esaki tunnel junctions in these lasers have been used to connect adjacent cascade stages and to enable transport of charge carriers between them. Typically, large concentrations of both n (electron-donor) and p (electron-acceptor) dopants have been necessary to impart low electrical resistances to Esaki tunnel junctions. Unfortunately, high doping contributes free-carrier absorption, thereby contributing to optical loss and thereby, further, degrading laser performance. In accordance with the present innovation, quantum wells are incorporated into the Esaki tunnel junctions so that the effective heights of barriers to quantum tunneling are reduced (see figure).
    Keywords: Man/System Technology and Life Support
    Type: NPO-40195 , NASA Tech Briefs, April 2004; 26-27
    Format: application/pdf
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  • 5
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    Complex Type-II Interband Cascade MQW Photodetectors (2007)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: Multiple-quantum-well (MQW) photodetectors of a proposed type would contain active regions comprising multiple superlattice subregions. These devices would have complex structures: The superlattice of each subregion would be designed for enhanced absorption of photons in a desired wavelength band (typically in the infrared) and multiple subregions of different design would be cascaded for multicolor operation. The designs of these photodetectors would take advantage of the characteristic alignment of the edges of the electron-energy bands in type-II quantum-well structures: Within each finite superlattice, interband transitions would be used for detecting photons, and between finite superlattices, intraband relaxation and interband tunneling would be used for transport of charge carriers, all such as to enable detection of normally incident photons. Absorption of photons in the active region of a photodetector according to the proposal could be significantly enhanced by designing the superlattice/MQW structures to contain closely spaced energy states. The photodetector could be operated with a small bias to facilitate transport of charge carriers. The superlattices could be somewhat chirped, with a preferred transport direction.
    Keywords: Man/System Technology and Life Support
    Type: NPO-41976 , NASA Tech Briefs, March 2007; 23
    Format: application/pdf
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  • 6
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    High-Speed Operation of Interband Cascade Lasers (2010)
    In:  CASI
    Details
    Publication Date: 2019-07-12
    Description: Optical sources operating in the atmospheric window of 3-5 microns are of particular interest for the development of free-space optical communication link. It is more advantageous to operate the free-space optical communication link in 3-5-microns atmospheric transmission window than at the telecom wavelength of 1.5 m due to lower optical scattering, scintillation, and background radiation. However, the realization of optical communications at the longer wavelength has encountered significant difficulties due to lack of adequate optical sources and detectors operating in the desirable wavelength regions. Interband Cascade (IC) lasers are novel semiconductor lasers that have a great potential for the realization of high-power, room-temperature optical sources in the 3-5-microns wavelength region, yet no experimental work, until this one, was done on high-speed direct modulation of IC lasers. Here, highspeed interband cascade laser, operating at wavelength 3.0 m, has been developed and the first direct measurement of the laser modulation bandwidth has been performed using a unique, highspeed quantum well infrared photodetector (QWIP). The developed laser has modulation bandwidth exceeding 3 GHz. This constitutes a significant increase of the IC laser modulation bandwidth over currently existing devices. This result has demonstrated suitability of IC lasers as a mid-IR light source for multi-GHz free-space optical communications links
    Keywords: Man/System Technology and Life Support
    Type: NPO-46738 , NASA Tech Briefs, September 2010; 26
    Format: application/pdf
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