Conference proceedings
  1. T. Kuroda, T. Mano, M. Abbarchi, and K. Sakoda:
    GaAs Quantum Dots with Type-II Band Alignment;
    AIP Conf. Proc. 1399, 521 (2011); doi:10.1063/1.3666483.
  2. M. Abbarchi, T. Kuroda, T. Mano, K. Sakoda, C. Mastrandrea, A. Vinattieri, M. Gurioli and T. Tsuchiya:
    Binding Energy of Exciton Complexes in Self-Assembled GaAs Quantum Dots;
    AIP Conf. Proc. 1399, 465 (2011).
  3. T. Kuroda, K. Kuroda, K. Sakoda, K. Watanabe, N. Koguchi, G. Kido:
    Single quantum dot emission after resonant excitation;
    Proc. SPIE, 6115, 61151L (5 pages, 2006).
  4. T. Kuroda, T. Mano, S. Sanguinetti, T. Ochiai, K. Sakoda, G. Kido, N. Koguchi:
    "Ground-state and excited-state emissions from self-assembled GaAs quantum rings";
    Technical Digests of IQEC/CLEO-PR2005, JTuH3-3, pp. 257-258 (2005).
  5. K. Kuroda, T. Kuroda, K. Sakoda, G. Kido, N. Koguchi:
    "Exciton homogeneous linewidths in GaAs single quantum dots";
    Technical Digests of IQEC/CLEO-PR2005, JTuH4-5, pp. 397-398 (2005).
  6. K. Kuroda, T. Kuroda, K. Sakoda, G. Kido, N. Koguchi:
    "Decoherence of excitons in GaAs quantum dots";
    Proc. of the 10th Int'l. Symposium on Advanced Physical Fields, pp. 135-138 (2005).
  7. T. Kuroda, T. Ochiai, T. Mano, S. Sanguinetti, K. Sakoda, N. Koguchi, G. Kido:
    "Microphotoluminescence of semiconductor quantum rings at zero magnetic field";
    Proc. of the 10th Int'l. Symposium on Advanced Physical Fields, pp. 313-318 (2005).
  8. M. Yamagiwa, F. Minami, T. Kuroda, S. Sanguinetti, N. Koguchi:
    "Electronic and Multi-Electronic Structures in GaAs Quantum Dots";
    Physics of Semiconductors (eds. J. Menendez and C.G. Van de Walle, AIP) 72A, pp. 679-680 (2004).
  9. Y. Hashimoto, T. Kuroda, F. Minami:
    "Biexcitonic Faraday rotation in GaAs/AlGaAs quantum wells";
    Physics of Semiconductors (eds. A.R. Long and J.H. Davis, IOP, London) H255 (2003).
  10. T. Kuroda, S. Sanguinetti, F. Minami, M. Gurioli, K. Watanabe, N. Koguchi:
    "Nonlinear carrier relaxation in a single GaAs self-organized quantum dot";
    Proc. 2002 MRS Fall Meeting E10.3 (2002).
  11. R. KAWAHARA, T. KURODA, Y. MITSUMORI, F. MINAMI:
    "Phase sensitive detection of transmitted femtosecond pulses in GaAs quantum wells";
    The Physics of Semiconductors (eds. N. Miura and T. Ando, Springer, Berlin), pp. 512-514 (2001).
  12. T. KURODA, F. MINAMI:
    "Spin coherence decay of quasi-two dimensional excitons in layered semiconductor GaSe";
    Digests of Euroconference of Spin Effects in Mesoscopic Systems, p. 29 (2000).
  13. T. KURODA, Y. YAMAUCHI, F. MINAMI, K. INOUE:
    "Photo accumulation effect on coherent emissions in semiconductor nanocrystals";
    The Physics of Semiconductors, (ed. D. Gershoni, World Scientific, Singapore) VII-B-61 (1999).
  14. S. MATSUSHITA, N. HASEGAWA, T. KURODA, F. MINAMI, Y. TERAI, S. KURODA, K. TAKITA:
    "Spatially resolved photoluminescence spectra od CdTe quantum dots";
    The Physics of Semiconductors, (ed. D. Gershoni, World Scientific, Singapore) VII-B-54 (1999).
  15. T. MIHASHI, M. MIZUNO, T. KURODA, F. MINAMI, A. HASEGAWA:
    "Stimulated photon echo decay arising from spectral diffusion in GaSe";
    The Physics of Semiconductors, (ed. D. Gershoni, World Scientific, Singapore) II-C-2 (1999).
  16. Y. MITSUMORI, K. OKAMOTO, T. KURODA, F. MINAMI:
    "Coherent control of the 2P excitonic polarization in ZnSe";
    The Physics of Semiconductors, (ed. D. Gershoni, World Scientific, Singapore) II-C-1 (1999).
  17. T. KURODA, F. MINAMI, K. INOUE, A.V. BARANOV:
    "Exciton homogeneous width in CuCl quantum dots";
    Technical digest of CLEO/Pacific Rim '97, PD1.12 (1997).
  18. R. KURIBAYASHI, T. KURODA, K. INOUE, F. MINAMI, I. SUEMUNE:
    "Exciton phase relaxation in nonlinear reflection on ZnSe-based quantum wells";
    The Physics of Semiconductors, (ed. M. Scheffler and R. Zimmermann, World Scientific, Singapore) pp. 2011-2014 (1996).
  19. Y. MITSUMORI, T. KURODA, F. MINAMI:
    "Phase sensitive observation of coherently emitted signals from excitons in quantum well structures";
    The Physics of Semiconductors, (ed. M. Scheffler and R. Zimmermann, World Scientific, Singapore) pp. 2011-2014 (1996).
  20. T. KURODA, T. TAKANO, F. MINAMI, H. AKINAGA:
    "Ultrafast relaxation of excitons in manganese-doped ZnSe";
    The Physics of Semiconductors, (ed. M. Scheffler and R. Zimmermann, World Scientific, Singapore) pp. 741-744 (1996).
  21. T. KURODA, F. MINAMI, K. INOUE:
    "Coherent transient phenemena of excitons in ZnSe/ZnSSe quantum wells - Comparison between free-induction decay and four-wave mixing signals";
    Technical Digest of CLEO/Pacific Rim '95, PD1.3 (1995).
  22. T. KURODA, K. INOUE, I. SUEMUNE, F. MINAMI:
    "Subpicosecond Excitonic Coherent Emission in a II-VI Superlattice Observed by Transient Reflectance Spectroscopy";
    The Physics of Semiconductors, (ed. D.J. Lockwood, World Scientofic, Singapore) pp. 1388-1391 (1995).
  23. T. KURODA, K. INOUE, I. SUEMUNE, R. KURIBAYASHI, F. MINAMI:
    "Exciton free induction in II-VI thin films observed by transient Brewster-angle reflectance spectroscopy";
    Excitonic Processes in Condensed Matter, (ed. J. Singh, SPIE, Washington) pp. 474-482 (1995).
  24. T. KURODA, F. MINAMI, K. INOUE:
    "Temporal Development of Photon Echo signals in GaSe";
    The Physics of Semiconductors, (ed. P. Jiang and H.-Z. Zheng, World Scientific, Singapore) pp. 1798-2001 (1993).
  25. J. NAKAHARA, T. KURODA, H. AMANO, I. AKASAKI, S. MINOMURA, I. GRZEGORY:
    "Raman spectra of thin film of GaN";
    Record of 9th Alloy Semiconductor Physics and Electronics Symposium, pp. 391-398 (1990).
Review articles
  1. 黒田隆,量子ドットをもつれ光子源; OplusE(アドコムメディア,2015年9月号)pp.702-706.
  2. 黒田隆,高対称量子ドットを用いた量子もつれ光源の開発; OplusE(アドコムメディア,2014年1月号)pp.111-114.
  3. 黒田隆,量子情報通信; OHM(オーム社,2013年12月号) pp.58-59.
  4. S. Sanguinetti, T. Mano, T. Kuroda;
    Self-assembled Semiconductor Quantum Ring Complexes by Droplet Epitaxy: Growth and Physical Properties;
    in Physics of Quantum Rings, Ed. V. M. Formin (Springer, 2013)
    http://www.springer.com/978-3-642-39196-5
  5. 黒田隆,半導体の光物性とバンドギャップ;
    バンドギャップエンジニアリング(監修:大橋直樹、シーエムシー出版、2011)第2章.
  6. 黒田隆,単一光子検出を利用した凝縮系コヒーレント分光;
    光学, 37, 454-460 (2008).
  7. 黒田圭司,黒田隆,迫田和彰,小口信行,木戸義勇:
    GaAs量子ドット励起子の単一光子フーリエ分光;
    固体物理, 41, 919 (2006).
  8. N. Koguchi, W. Watanabe, T. Mano, T. Kuroda, K. Sakoda:
    "Fabrication of lattice-matched quantum dot systems of GaAs/AlGaAs by droplet epitaxy
    and characterization of their optical properties" (格子整合系GaAs/AlGaAs量子ドットの液滴エピタキシーによる作製と光学評価);
    OUYOUBUTSURI (in Japanese), 74, 343 (2005).
  9. 黒田隆,井上久遠:
    "半導体薄膜の励起子観測と試料評価のためのブリュスター角反射分光法";
    固体物理, 29, pp. 753-758 (1994).
Journal papers
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