Atomic layer epitaxy for quantum well nitride-based devices

被引:1
|
作者
Hite, Jennifer [1 ]
Nepal, Neeraj [2 ]
Anderson, Virginia R. [3 ]
Freitas, Jaime A. [1 ]
Mastro, Michael A. [1 ]
Eddy, Charles R., Jr. [1 ]
机构
[1] US Naval Res Lab, Washington, DC 20375 USA
[2] Sotera Def Solut, Crofton, MD 21114 USA
[3] Amer Soc Engn Educ, Washington, DC USA
来源
QUANTUM SENSING AND NANO ELECTRONICS AND PHOTONICS XIII | 2016年 / 9755卷
关键词
III-nitride; atomic layer epitaxy; quantum well; THIN-FILMS; GROWTH; GAN;
D O I
10.1117/12.2209111
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
The development and characterization of nitride QW structures grown by atomic layer epitaxy (ALEp) for device applications are discussed. We have grown epitaxial thin films (4-10nm) covering the full range of binary and ternary III-N compositions by ALEp. In this work, ALEp-grown QW structures are presented. Optical characteristics are discussed. Characterization of layer interfaces and composition are critical to the development of this growth technique for quantum-based devices. Structures to study this by atom probe tomography have been created. By understanding the structure of crystalline ALEp films with nanometer-scale thickness, the unique properties of these materials can be advanced for quantum-scale applications.
引用
收藏
页数:6
相关论文
共 50 条
  • [1] Analysis of nitride-based quantum well LEDs and novel white LED design
    Xiao, D
    Kim, KW
    Bedair, SM
    Zavada, JM
    LIGHT -EMITTING DIODES: RESEARCH, MANUFACTURING, AND APPLICATIONS VIII, 2004, 5366 : 85 - 96
  • [2] Optical investigations of bulk and multi-quantum well nitride-based microcavities
    Reveret, F.
    Medard, F.
    Disseix, P.
    Leymarie, J.
    Mihailovic, M.
    Vasson, A.
    Sellers, I. R.
    Semond, F.
    Leroux, M.
    Massies, J.
    OPTICAL MATERIALS, 2009, 31 (03) : 505 - 509
  • [3] Nitride-based light emitting diode and photodetector dual function devices with InGaN/GaN multiple quantum well structures
    Jhou, YD
    Chen, CH
    Chuang, RW
    Chang, SJ
    Su, YK
    Chang, PC
    Chen, PC
    Hung, H
    Wang, SM
    Yu, CL
    SOLID-STATE ELECTRONICS, 2005, 49 (08) : 1347 - 1351
  • [4] Nitride-based quantum dots for single photon source applications
    Jarjour, Anas F.
    Oliver, Rachel A.
    Taylor, Robert A.
    PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 2009, 206 (11): : 2510 - 2523
  • [5] Recent advances in silicon nitride-based photonic devices and applications
    Fan Zhi-bin
    Chen Ze-ming
    Zhou Xin
    He Xin-tao
    Jiang Shao-ji
    Dong Jian-wen
    CHINESE OPTICS, 2021, 14 (04) : 998 - 1018
  • [6] Quantum Efficiency of Gallium Nitride-Based Heterostructures with GaInN Quantum Wells
    Vigdorovich, E. N.
    SEMICONDUCTORS, 2018, 52 (15) : 1925 - 1930
  • [7] Carrier screening and polarization fields in nitride-based heterostructure devices
    Della Sala, F
    Di Carlo, A
    Lugli, P
    Cingolani, R
    Coli, G
    Lomascolo, M
    Botchkarev, A
    Tang, H
    Morkoc, H
    PHYSICA B-CONDENSED MATTER, 1999, 272 (1-4) : 397 - 401
  • [8] Piezoelectric quantum 1/f noise in nitride-based heterostructures
    Handel, Peter H.
    Morkoc, Hadis
    Sia, Engkee
    Truong, Amanda M.
    GALLIUM NITRIDE MATERIALS AND DEVICES III, 2008, 6894
  • [9] Atomic Layer Epitaxy of Aluminum Nitride: Unraveling the Connection between Hydrogen Plasma and Carbon Contamination
    Erwin, Steven C.
    Lyons, John L.
    ACS APPLIED MATERIALS & INTERFACES, 2018, 10 (23) : 20142 - 20149
  • [10] Nitride-based multiquantum well p-n junction photodiodes
    Su, YK
    Chang, SJ
    Chiou, YZ
    Tsai, TY
    Gong, J
    Lin, YC
    Liu, SH
    Chang, CS
    SOLID-STATE ELECTRONICS, 2003, 47 (05) : 879 - 883
12345