Individual cobalt and manganese ions in semiconductor quantum dots and photonic structures

被引:2
|
作者
Pacuski, Wojciech [1 ]
机构
[1] Univ Warsaw, Inst Expt Phys, Fac Phys, PL-00681 Warsaw, Poland
来源
SPINTRONICS VII | 2014年 / 9167卷
关键词
Quantum dots; excitons; photonic structures; microcavities; micropillars; diluted magnetic semiconductors; single dopants; magnetic ions; solotronics; SINGLE DOPANTS; SPIN; PHOTOLUMINESCENCE; DYNAMICS; GROWTH; CAVITY;
D O I
10.1117/12.2063774
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
This work reviews recent progress in technology of optical operating single magnetic ions. Photoluminescence spectra of nonmagnetic QDs and QDs containing Mn or Co individual ions are shown. Emission of quantum dots with single magnetic ions is compared to emission of bulk diluted magnetic semiconductors. Micropillar cavity with a CdTe/ZnTe QD containing a single manganese ion is presented. Possibilities of applying various microcavity systems for sophisticated studies of single magnetic dopants are discussed.
引用
收藏
页数:7
相关论文
共 50 条
  • [21] Homogeneous line broadening in individual semiconductor quantum dots by temperature fluctuations
    Arzberger, M
    Amann, MC
    PHYSICAL REVIEW B, 2000, 62 (16) : 11029 - 11037
  • [22] Fine structure and optical pumping of spins in individual semiconductor quantum dots
    Bracker, Allan S.
    Gammon, Daniel
    Korenev, Vladimir L.
    SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 2008, 23 (11)
  • [23] 1D Photonic Lattice Structures Fabricated by Holographic Assembly of Semiconductor CdSe Quantum Dots in Photopolymer Films
    Liu, X.
    Tomita, Y.
    Oshima, J.
    Chikama, K.
    Nakashima, T.
    Kawai, T.
    2010 15TH OPTOELECTRONICS AND COMMUNICATIONS CONFERENCE (OECC), 2010, : 238 - +
  • [24] Spin–Lattice Relaxation of Mn Ions in Nanostructures with Semiconductor Quantum Dots
    A. V. Akimov
    A. V. Scherbakov
    D. R. Yakovlev
    W. Ossau
    L. W. Molenkamp
    Y. Oka
    I. Souma
    Y. Terai
    S. Kuroda
    K. Takita
    Journal of Superconductivity, 2003, 16 : 391 - 394
  • [25] Semiconductor Quantum Dots
    Alex Zunger
    MRS Bulletin, 1998, 23 : 15 - 17
  • [26] Semiconductor quantum dots
    Zhou, Weidong
    Coleman, James J.
    CURRENT OPINION IN SOLID STATE & MATERIALS SCIENCE, 2016, 20 (06): : 352 - 360
  • [27] Semiconductor quantum dots
    Reithmaier, JP
    Forchel, A
    IEEE CIRCUITS & DEVICES, 2003, 19 (06): : 24 - 29
  • [28] Emission polarization control in semiconductor quantum dots coupled to a photonic crystal microcavity
    Gallardo, E.
    Martinez, L. J.
    Nowak, A. K.
    van der Meulen, H. P.
    Calleja, J. M.
    Tejedor, C.
    Prieto, I.
    Granados, D.
    Taboada, A. G.
    Garcia, J. M.
    Postigo, P. A.
    OPTICS EXPRESS, 2010, 18 (12): : 13301 - 13308
  • [29] Simulation of Mutual Coupling of Photonic Crystal Cavity Modes and Semiconductor Quantum Dots
    Declair, S.
    Song, X.
    Meier, T.
    Foerstner, J.
    FOURTH INTERNATIONAL WORKSHOP ON THEORETICAL AND COMPUTATIONAL NANOPHOTONICS (TACONA-PHOTONICS 2011), 2011, 1398
  • [30] Chiral photonic bandgap microcavities doped with single colloidal semiconductor quantum dots
    Bissell, Luke J.
    Lukishova, Svetlana G.
    Schmid, Ansgar W.
    Hahn, Megan A.
    Evans, Chris M.
    Krauss, Todd D.
    Stroud, Carlos R., Jr.
    Boyd, Robert W.
    ICONO 2010: INTERNATIONAL CONFERENCE ON COHERENT AND NONLINEAR OPTICS, 2011, 7993
12345