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Optical constants of Ga1−xInxAsySb1−y lattice matched to GaSb (001): Experiment and modeling (2000)

Muñoz, M. ; Wei, K. ; Pollak, Fred H.

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 87 (2000), S. 1780-1787

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: The optical constants ε(E)[=ε1(E)+iε2(E)] of two epitaxial layers of GaInAsSb/GaSb have been measured at 300 K using spectral ellipsometry in the range of 0.35–5.3 eV. The ε(E) spectra displayed distinct structures associated with critical points (CPs) at E0 (direct gap), spin-orbit split E0+Δ0 component, spin-orbit split (E1,E1+Δ1) and (E0′,E0′+Δ0′) doublets, as well as E2. The experimental data over the entire measured spectral range (after oxide removal) has been fit using the Holden model dielectric function [Holden et al., Phys. Rev. B 56, 4037 (1997)] based on the electronic energy-band structure near these CPs plus excitonic and band-to-band Coulomb-enhancement effects at E0, E0+Δ0, and the E1, E1+Δ1 doublet. In addition to evaluating the energies of these various band-to-band CPs, information about the binding energy (R1) of the two-dimensional exciton related to the E1, E1+Δ1 CPs was obtained. The value of R1 was in good agreement with effective mass/k⋅p theory. The ability to evaluate R1 has important ramifications for recent first-principles band-structure calculations which include exciton effects at E0, E1, and E2 [M. Rohlfing and S. G. Louie, Phys. Rev. Lett. 81, 2312 (1998); S. Albrecht et al., Phys. Rev. Lett. 80, 4510 (1998)]. The experimental absorption coefficients in the region of E0 were in good agreement with values obtained from a linear interpolation of the end-point materials. Our experimental results were compared to a recent evaluation and fitting (Holden model) of the optical constants of GaSb. © 2000 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.372092

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Optical properties of CdTe1−xSx (0≤x≤1): Experiment and modeling (1999)

Wei, K. ; Pollak, Fred H.

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 85 (1999), S. 7418-7425

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: Spectral ellipsometry at 300 K, in the range 0.75–5.4 eV, has been used to determine the optical constants ε(E)[=ε1(E)+iε2(E)] of a series of CdTe1−xSx (0≤x≤1) films fabricated by a laser-deposition process. The measured ε(E) data reveal distinct structures associated with critical points (CPs) at E0 (direct gap), spin-orbit split E1, E1+Δ1 doublet and E2. The experimental data over the entire measured spectral range (after oxide removal) has been fit using the Holden model dielectric function [Phys. Rev. B 56, 4037 (1997)] based on the electronic energy-band structure near these CPs (also E0+Δ0 CP) plus excitonic and band-to-band Coulomb enhancement (BBCE) effects. In addition to evaluating the energies of these various band-to-band CPs, our analysis also makes it possible to obtain information about the binding energies of not only the three-dimensional exciton associated with E0 but also the two-dimensional exciton related to the E1, E1+Δ1 CPs. Our results will be compared to previous experiments and modeling (which neglect the BBCE terms) of ε(E) of CdTe and CdS as well as optical absorption measurements of E0 of CdTe1−xSx (0≤x≤1). The results of this experiment demonstrate conclusively that the band-to-band line shape at E0 is BBCE even if the exciton is not resolved. © 1999 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.369372

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Strong magnetic fields generated with a simple open-ended coil irradiated by high power laser pulses (2015)

B. J. Zhu, Y. T. Li, D. W. Yuan, Y. F. Li, F. Li, G. Q. Liao, J. R. Zhao, J. Y. Zhong, F. B. Xue, S. K. He, W. W. Wang, F. Lu, F. Q. Zhang, L. Yang, K. N. Zhou, N. Xie, W. Hong, H. G. Wei, K. Zhang, B. Han, X. X. Pei, C. Liu, Z. Zhang, W. M. Wang, J. Q. Zhu, Y. Q. Gu, Z. Q. Zhao, B. H. Zhang, G. Zhao and J. Zhang

American Institute of Physics (AIP)

In: Applied Physics Letters

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Publication Date: 2015-12-30

Description: A simple scheme to produce strong magnetic fields due to cold electron flow in an open-ended coil heated by high power laser pulses is proposed. It differs from previous generation of magnetic fields driven by fast electron current in a capacitor-coil target [S. Fujioka et al ., Sci. Rep. 3 , 1170 (2013)]. The fields in our experiments are measured by B-dot detectors and proton radiography, respectively. A 205 T strong magnetic field at the center of the coil target is generated in the free space at Iλ 2 of 6.85 × 10 14 W cm −2 μ m 2 , where I is the laser intensity, and λ is the laser wavelength. The magnetic field strength is proportional to Iλ 2 . Compared with the capacitor-coil target, the generation mechanism of the magnetic field is straightforward and the coil is easy to be fabricated.

Print ISSN: 0003-6951

Electronic ISSN: 1077-3118

Topics: Physics

Published by American Institute of Physics (AIP)

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Upgrade of the electron beam ion trap in Shanghai (2014)

D. Lu, Y. Yang, J. Xiao, Y. Shen, Y. Fu, B. Wei, K. Yao, R. Hutton and Y. Zou

American Institute of Physics (AIP)

In: Review of Scientific Instruments

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Publication Date: 2014-09-04

Description: Over the last few years the Shanghai electron beam ion trap (EBIT) has been successfully redesigned and rebuilt. The original machine, developed under collaboration with the Shanghai Institute of Applied Physics, first produced an electron beam in 2005. It could be tuned with electron energies between 1 and 130 keV and beam current up to 160 mA. After several years of operation, it was found that several modifications for improvements were necessary to reach the goals of better electron optics, higher photon detection, and ion injection efficiencies, and more economical running costs. The upgraded Shanghai-EBIT is made almost entirely from Ti instead of stainless steel and achieves a vacuum of less than 10 −10 Torr, which helps to minimize the loss of highly changed ions through charge exchange. Meanwhile, a more compact structure and efficient cryogenic system, and excellent optical alignment have been of satisfactory. The magnetic field in the central trap region can reach up till 4.8 T with a uniformity of 2.77 × 10 −4 . So far the upgraded Shanghai-EBIT has been operated up to an electron energy of 151 keV and a beam current of up to 218 mA, although promotion to even higher energy is still in progress. Radiation from ions as highly charged as Xe 53+, 54+ has been produced and the characterization of current density is estimated from the measured electron beam width.

Print ISSN: 0034-6748

Electronic ISSN: 1089-7623

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Published by American Institute of Physics (AIP)

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