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The role of beryllium in the band structure of MgZnO: Lifting the valence band maximum (2014)

S. S. Chen, X. H. Pan, W. Chen, H. H. Zhang, W. Dai, P. Ding, J. Y. Huang, B. Lu and Z. Z. Ye

American Institute of Physics (AIP)

In: Applied Physics Letters

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Publication Date: 2014-09-26

Description: We investigate the effect of Be on the valence band maximum (VBM) of MgZnO by measuring the band offsets of Mg x Zn 1−x O/Be x Mg y Zn 1−x−y O heterojunctions using X-ray photoelectron spectroscopy measurements. Mg x Zn 1−x O and Be x Mg y Zn 1−x−y O films have been grown on c-plane sapphire substrates by plasma-assisted molecular beam epitaxy. The valence band offset ( Δ E V ) of Mg 0.15 Zn 0.85 O ( E g = 3.62 eV)/Be 0.005 Mg 0.19 Zn 0.805 O ( E g = 3.73 eV) heterojunction is 0.01 eV and Be 0.005 Mg 0.19 Zn 0.805 O has a lower VBM. The increased Mg composition is the main factor for the reduction of VBM. The VBM of Mg x Zn 1−x O is lower by 0.03 eV with the enlargement of E g from 3.62 eV to 3.73 eV by increasing Mg composition. Considering the effect of increased Mg composition, it is concluded that the little amount of Be makes the VBM go up by 0.02 eV when the E g of the alloy is 3.73 eV. The Δ E V of Mg 0.11 Zn 0.89 O ( E g = 3.56 eV)/Be 0.007 Mg 0.12 Zn 0.873 O ( E g = 3.56 eV) heterojunction is calculated to be 0.03 eV and Be 0.007 Mg 0.12 Zn 0.873 O has a higher VBM than Mg 0.11 Zn 0.89 O, which means that a little amount Be lifts the VBM by 0.03 eV when the E g of the alloy is 3.56 eV. The experimental measurements have offered a strong support for the theoretical research that alloying Be in Mg x Zn 1−x O alloys is hopeful to form a higher VBM and to enhance the p-type dopability of MgZnO.

Print ISSN: 0003-6951

Electronic ISSN: 1077-3118

Topics: Physics

Published by American Institute of Physics (AIP)

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Electrically controlling the polarizing direction of a graphene polarizer (2014)

Z. H. Zhu, C. C. Guo, K. Liu, J. F. Zhang, W. M. Ye, X. D. Yuan and S. Q. Qin

American Institute of Physics (AIP)

In: Journal of Applied Physics

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Publication Date: 2014-09-11

Description: We theoretically demonstrate a polarizer with an electrically controllable polarizing direction in the far infrared range using two orthogonal periodic arrays of graphene ribbons, which have different widths and are supported on a dielectric film placed on a thick piece of metal. The operation mechanism originates from the polarization-dependent resonant absorption of the two orthogonal graphene ribbons, which can be respectively controlled with different external bias voltages. The operation wavelength can be expanded to terahertz (THz) radiation.

Print ISSN: 0021-8979

Electronic ISSN: 1089-7550

Topics: Physics

Published by American Institute of Physics (AIP)

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Envelope matching for enhanced backward Raman amplification by using self-ionizing plasmas (2014)

Z. M. Zhang, B. Zhang, W. Hong, M. Y. Yu, J. Teng, S. K. He and Y. Q. Gu

American Institute of Physics (AIP)

In: Physics of Plasmas

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Publication Date: 2014-12-10

Description: Backward Raman amplification (BRA) in plasmas has been promoted as a means for generating ultrapowerful laser pulses. For the purpose of achieving the maximum intensities over the shortest distances, an envelope matching between the seed pulse and the amplification gain is required, i.e., the seed pulse propagates at the same velocity with the gain such that the peak of the seed pulse can always enjoy the maximum gain. However, such an envelope matching is absent in traditional BRA because in the latter the amplification gain propagates at superluminous velocity while the seed pulse propagates at the group velocity, which is less than the speed of light. It is shown here that, by using self-ionizing plasmas, the speed of the amplification gain can be well reduced to reach the envelope matching regime. This results in a favorable BRA process, in which higher saturated intensity, shorter interaction length and higher energy-transfer efficiency are achieved.

Print ISSN: 1070-664X

Electronic ISSN: 1089-7674

Topics: Physics

Published by American Institute of Physics (AIP)

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Study on lower hybrid current drive efficiency at high density towards long-pulse regimes in Experimental Advanced Superconducting Tokamak (2014)

M. H. Li, B. J. Ding, J. Z. Zhang, K. F. Gan, H. Q. Wang, Y. Peysson, J. Decker, L. Zhang, W. Wei, Y. C. Li, Z. G. Wu, W. D. Ma, H. Jia, M. Chen, Y. Yang, J. Q. Feng, M. Wang, H. D. Xu, J. F. Shan, F. K. Liu and EAST Team

American Institute of Physics (AIP)

In: Physics of Plasmas

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Publication Date: 2014-06-14

Description: Significant progress on both L- and H-mode long-pulse discharges has been made recently in Experimental Advanced Superconducting Tokamak (EAST) with lower hybrid current drive (LHCD) [J. Li et al. , Nature Phys. 9 , 817 (2013) And B. N. Wan et al. , Nucl. Fusion 53 , 104006 (2013).]. In this paper, LHCD experiments at high density in L-mode plasmas have been investigated in order to explore possible methods of improving current drive (CD) efficiency, thus to extend the operational space in long-pulse and high performance plasma regime. It is observed that the normalized bremsstrahlung emission falls much more steeply than 1/ n e_av (line-averaged density) above n e_av = 2.2 × 10 19 m −3 indicating anomalous loss of CD efficiency. A large broadening of the operating line frequency ( f = 2.45 GHz), measured by a radio frequency (RF) probe located outside the EAST vacuum vessel, is generally observed during high density cases, which is found to be one of the physical mechanisms resulting in the unfavorable CD efficiency. Collisional absorption of lower hybrid wave in the scrape off layer (SOL) may be another cause, but this assertion needs more experimental evidence and numerical analysis. It is found that plasmas with strong lithiation can improve CD efficiency largely, which should be benefited from the changes of edge parameters. In addition, several possible methods are proposed to recover good efficiency in future experiments for EAST.

Print ISSN: 1070-664X

Electronic ISSN: 1089-7674

Topics: Physics

Published by American Institute of Physics (AIP)

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