BAND-GAP ENGINEERING VIA GRADED GAP, SUPER-LATTICE, AND PERIODIC DOPING STRUCTURES - APPLICATIONS TO NOVEL PHOTODETECTORS AND OTHER DEVICES

被引:71
|
作者
CAPASSO, F
机构
来源
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B | 1983年 / 1卷 / 02期
关键词
D O I
10.1116/1.582627
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
引用
收藏
页码:457 / 461
页数:5
相关论文
共 16 条
  • [1] The Nested Topological Band-Gap Structure for the Periodic Domain Walls in a Photonic Super-Lattice
    Lai, Zhen
    Liu, Yufu
    Li, Yunlin
    Wang, Xuezhi
    Jiang, Xunya
    CRYSTALS, 2024, 14 (09)
  • [2] OBSERVATION OF TUNABLE BAND-GAP AND TWO-DIMENSIONAL SUBBANDS IN A NOVEL GAAS SUPER-LATTICE
    DOHLER, GH
    KUNZEL, H
    OLEGO, D
    PLOOG, K
    RUDEN, P
    STOLZ, HJ
    ABSTREITER, G
    PHYSICAL REVIEW LETTERS, 1981, 47 (12) : 864 - 867
  • [3] Band-Gap Engineering of Polythiophenes via Dithienophosphole Doping
    Krueger, Robin A.
    Gordon, Terry J.
    Sutherland, Todd C.
    Baumgartner, Thomas
    JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 2011, 49 (05) : 1201 - 1209
  • [4] NEW MULTILAYER AND GRADED GAP OPTOELECTRONIC AND HIGH-SPEED DEVICES BY BAND-GAP ENGINEERING
    CAPASSO, F
    SURFACE SCIENCE, 1984, 142 (1-3) : 513 - 528
  • [5] Strain and Band-Gap Engineering in Ge-Sn Alloys via P Doping
    Prucnal, Slawomir
    Berencen, Yonder
    Wang, Mao
    Grenzer, Joerg
    Voelskow, Matthias
    Huebner, Rene
    Yamamoto, Yuji
    Scheit, Alexander
    Baerwolf, Florian
    Zviagin, Vitaly
    Schmidt-Grund, Ruediger
    Grundmann, Marius
    Zuk, Jerzy
    Turek, Marcin
    Drozdziel, Andrzej
    Pyszniak, Krzysztof
    Kudrawiec, Robert
    Polak, Maciej P.
    Rebohle, Lars
    Skorupa, Wolfgang
    Helm, Manfred
    Zhou, Shengqiang
    PHYSICAL REVIEW APPLIED, 2018, 10 (06):
  • [6] NOVEL GRADED BAND-GAP PHOTODETECTORS WITH ULTRAHIGH SPEED OF RESPONSE (TR=20PS, FWHM=40PS) AND PHOTOTRANSISTORS WITH GRADED GAP BASE
    CAPASSO, F
    TSANG, WT
    HUTCHINSON, AL
    BETHEA, CG
    LEVINE, BF
    INSTITUTE OF PHYSICS CONFERENCE SERIES, 1983, (65): : 225 - 231
  • [7] A novel multilayer super-compact inharmonic photonic band-gap (PBG) structure for microstrip applications
    Caloz, C
    Chang, CC
    Itoh, T
    APMC 2001: ASIA-PACIFIC MICROWAVE CONFERENCE, VOLS 1-3, PROCEEDINGS, 2001, : 651 - 654
  • [8] Effect of band-gap tuning on lead-free double perovskite heterostructure devices for photovoltaic applications via SCAPS simulation
    Kumar, Manish
    Raj, Abhishek
    Kumar, Arvind
    Anshul, Avneesh
    MATERIALS TODAY COMMUNICATIONS, 2021, 26
  • [9] Band-Gap Engineering of Zinc Oxide Colloids via Lattice Substitution with Sulfur Leading to Materials with Advanced Properties for Optical Applications Like Full Inorganic UV Protection
    Lehr, Daniela
    Luka, Martin
    Wagner, Markus R.
    Buelger, Max
    Hoffmann, Axel
    Polarz, Sebastian
    CHEMISTRY OF MATERIALS, 2012, 24 (10) : 1771 - 1778
  • [10] A band gap engineering for the modification in electrical properties of Fe3O4 by Cu2+ doping for electronic and optoelectronic devices applications
    Shahroz Saleem
    Muhammad Hasnain Jameel
    Asma A. Alothman
    Mohd Zul Hilmi Bin Mayzan
    Talha Yousaf
    Muhammad Rehan Ahmad
    Asad Ali
    Abid Zaman
    Journal of Sol-Gel Science and Technology, 2024, 109 : 471 - 482
12