publications yoshihisa yamamoto - stanford...

Publications

Yoshihisa Yamamoto

Hirsch index (h-index)=54m parameter = h-index/years = 1.8Total number of publications = 350Total number of citations = 10,319

(as of August, 2006)

1. Y. Yamamoto, T. Kamiya, and H. Yanai, “Propagation Characteristics of PartiallyMetal Clad Optical Guide-Metal Clad Optical Strip Line,” Appl. Opt. 14, 322-326(February 1975). 35

2. Y. Yamamoto, T. Kamiya, and H. Yanai, “Characteristics of Optical Guided Modes inMultilayer Metal Clad Planar Optical Guide with Low-Index Dielectric Buffer Layer,”IEEE J. Quantum Electron. QE-11, 729-736 (September 1975). 72

3. Y. Yamamoto, Y. Naruse, T. Kamiya, and H. Yanai, “A Large-Tolerant Single ModeFiber Coupler with a Tapered Structure,” Proc. IEEE 64, 1013-1014 (June 1976). 3

4. Y. Yamamoto, T. Kamiya, and H. Yanai, “Improved Coupled Mode Analysis of Cor-rugated Waveguides and Lasers,” IEEE J. Quantum Electron. QE-14, 245-258 (April1978). 61

5. Y. Yamamoto, T. Kamiya, and H. Yanai “Improved Coupled Mode Analysis of Corru-gated Waveguides and Lasers. II. TM Modes,” IEEE J. Quantum Electron. QE-14,620-624 (August 1978). 14

6. Y. Yamamoto, Y. Naruse, T. Kamiya, and H. Yanai, “Low Loss Splice of Single-Mode-Fiber Using Tapered Velocity Couplers,” Trans. IEICE of Japan E62, 11-17 (January1979)

7. Y. Yamamoto and H. Kanbe, “Zn Diffusion in InxGa1−xAs with ZnAs2 Source,” Jpn.J. Appl. Phys. 19, 121-128 (January 1980). 25

8. Y. Yamamoto and H. Tsuchiya, “Optical Receiver Sensitivity Improvement by a Semi-conductor Laser Preamplifier,” Electron. Lett. 16, 233-235 (March 1980). 28

9. S. Saito, Y. Yamamoto, and T. Kimura, “Optical Heterodyne Detection of Directly Fre-quency Modulated Semiconductor Laser Signal,” Electron. Lett. 16, 826-827 (October1980).

10. Y. Yamamoto, “Characteristics of AlGaAs Fabry-Perot Cavity Type Laser Amplifiers,”IEEE J. Quantum Electron. QE-16, 1047-1052 (October 1980). 53

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11. Y. Yamamoto, “Noise and Error Rate Performance of Semiconductor Laser Amplifiersin PCM-IM Optical Transmission Systems,” IEEE J. Quantum Electron. QE-16, 1073-1081 (October 1980). 152

12. Y. Yamamoto, “Receiver Performance Evaluation of Various Digital Optical Modulation-Demodulation Systems in the 0.5-10 µm Wavelength Region,” IEEE J. Quantum Elec-tron. QE-16, 1251-1259 (November 1980). 98

13. T. Mukai and Y. Yamamoto, “Noise Characteristics of Semiconductor Laser Ampli-fiers,” Electron. Lett. 17, 31-33 (January 1981). 13

14. Y. Yamamoto, T. Mukai and S. Saito, “Quantum Phase Noise and Linewidth of aSemiconductor Laser,” Electron. Lett. 17, 327-328 (April 1981). 33

15. S. Saito and Y. Yamamoto, “Direct Observation of Lorentzian Lineshape of Semicon-ductor Laser and Linewidth Reduction with External Grating Feedback,” Electron.Lett. 17, 325-327 (April 1981). 79

16. S. Kobayashi, Y. Yamamoto, and T. Kimura, “Modulation Frequency Characteristics ofDirectly Optical Frequency Modulated AlGaAs Semiconductor Laser,” Electron. Lett.17, 350-351 (May 1981). 34

17. Y. Yamamoto and T. Kimura, “Coherent Optical Fiber Transmission Systems,” IEEEJ. Quantum Electron. QE-17, 919-935 (June 1981). 243

18. S. Saito, Y. Yamamoto, and T. Kimura, “Optical FSK Heterodyne Detection Experi-ments Using Semiconductor Laser Transmitter and Local Oscillator,” IEEE J. QuantumElectron. QE-17, 935-941 (June 1981). 45

19. T. Mukai and Y. Yamamoto, “Gain, Frequency Bandwidth, and Saturation OutputPower of AlGaAs DH Laser Amplifiers,” IEEE J. Quantum Electron. QE-17, 1028-1034 (June 1981). 106

20. O. Nilsson, S. Saito, and Y. Yamamoto, “Oscillation Frequency, Linewidth Reductionand Frequency Modulation Characteristics for a Diode Laser with External GratingFeedback,” Electron. Lett. 17, 589-591 (August 1981). 26

21. S. Kobayashi, Y. Yamamoto, and T. Kimura, “Optical FM Signal Amplification andFM Noise Reduction in an Injection Locked AlGaAs Semiconductor Laser,” Electron.Lett. 17, 849-851 (October 1981). 22

22. T. Mukai and Y. Yamamoto, “Noise in an AlGaAs Semiconductor Laser Amplifier,”IEEE J. Quantum Electron. QE-18, 564-575 (April 1982). 67

23. S. Kobayashi, Y. Yamamoto, M. Ito, and T. Kimura, “Direct Frequency Modulation inAlGaAs Semiconductor Lasers,” IEEE J. Quantum Electron. QE-18, 582-595 (April1982). 275

24. T. Mukai, Y. Yamamoto, and T. Kimura, “S/N Performance of an AlGaAs Laser Pream-plifier and a Linear Repeater System,” Electron. Lett. 18, 382-384 (April 1982). 7

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25. S. Saito, Y. Yamamoto, and T. Kimura, “Semiconductor Laser FSK Modulation andOptical Direct Discrimination Detection,” Electron. Lett. 18, 468-470 (May 1982). 24

26. S. Saito, Y. Yamamoto, and T. Kimura, “Optical FSK Signal Detection in a HeterodyneSystem Using Semiconductor Lasers,” Electron. Lett. 18, 470-471 (May 1982). 10

27. S. Saito, O. Nilsson, and Y. Yamamoto, “Oscillation Center Frequency Tuning, Quan-tum FM Noise, and Direct Frequency Modulation Characteristics in External GratingLoaded Semiconductor Lasers,” IEEE J. Quantum Electron. QE-18, 961-971 (June1982). 77

28. T. Mukai, Y. Yamamoto, and T. Kimura, “S/N and Error Rate Performance in AlGaAsSemiconductor Laser Preamplifier and Linear Repeater Systems,” IEEE J. QuantumElectron. QE-18, 1560-1568 (October 1982). 96

29. T. Kimura and Y. Yamamoto, “Optical Devices for Coherent Transmission Systems,”in Optical Devices and Fibers V, ed. Y. Suematsu (North-Holland, Amsterdam, 1983),pp. 2-22. 0

30. Y. Yamamoto, “AM and FM Quantum Noise in Semiconductor Lasers — Part I: The-oretical Analysis,” IEEE J. Quantum Electron. QE-19, 34-46 (January 1983). 126

31. Y. Yamamoto, S. Saito, and T. Mukai, “AM and FM Quantum Noise in SemiconductorLasers — Part II: Comparison of Theoretical and Experimental Results for AlGaAsLasers,” IEEE J. Quantum Electron. QE-19, 47-58 (January 1983). 111

32. T. Kimura and Y. Yamamoto, “Progress of Coherent Optical Fiber CommunicationSystems,” Opt. Quantum Electron. 15, 1-39 (January 1983) [Invited Paper]. 29

33. S. Saito, Y. Yamamoto, and T. Kimura, “S/N and Error Rate Evaluation for an OpticalFSK-Heterodyne Detection System Using Semiconductor Lasers,” IEEE J. QuantumElectron. QE-19, 180-193 (February 1983). 44

34. T. Mukai, Y. Yamamoto, and T. Kimura, “Optical Direct Amplification for Fiber Trans-mission,” Review of the Electrical Communication Laboratories 31, 340-348 (1983). 25

35. T. Mukai and Y. Yamamoto, “AM Quantum Noise in 1.3 µm InGaAsP Lasers,” Elec-tron. Lett. 20, 29-30 (January 1984). 2

36. H. A. Haus and Y. Yamamoto, “Quantum Noise of an Injection-Locked Laser Oscilla-tor,” Phys. Rev. A 29, 1261-1274 (March 1984). 21

37. T. Yanagawa, S. Saito, and Y. Yamamoto, “Frequency Stabilization of 1.5-µm InGaAsPDistributed Feedback Laser to NH3 Absorption Lines,” Appl. Phys. Lett. 45, 826-828(October 1984). 48

38. S. Saito, O. Nilsson, and Y. Yamamoto, “Frequency Modulation Noise and LinewidthReduction in a Semiconductor Laser by Means of Negative Frequency Feedback Tech-nique,” Appl. Phys. Lett. 46, 3-5 (January 1985). 39

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39. O. Nilsson and Y. Yamamoto, “Small-Signal Response of a Semiconductor Laser withInhomogeneous Linewidth Enhancement Factor: Possibilities of a Flat Carrier-InducedFM Response,” Appl. Phys. Lett. 46, 223-225 (February 1985). 44

40. N. Imoto, H. A. Haus, and Y. Yamamoto, “Quantum Nondemolition Measurement ofthe Photon Number Via the Optical Kerr Effect,” Phys. Rev. A 32, 2287-2292 (October1985). 253

41. T. Yanagawa, S. Saito, S. Machida, Y. Yamamoto, and Y. Noguchi, “Frequency Sta-bilization of an InGaAsP Distributed Feedback Laser to an NH3 Absorption Line at15137 A with an External Frequency Modulator,” Appl. Phys. Lett. 47, 1036-1038(November 1985). 31

42. Y. Yamamoto, O. Nilsson, and S. Saito, “Theory of a Negative Frequency FeedbackSemiconductor Laser,” IEEE J. Quantum Electron. QE-21, 1919-1928 (December1985). 25

43. Y. Yamamoto and S. Saito, “Negative Frequency Feedback Semiconductor Laser,” inOptical Devices and Fibers XVII, ed. Y. Suematsu (North-Holland, Amsterdam, 1985),pp. 17-31.

44. T. Mukai, Y. Yamamoto, and T. Kimura, “Optical Amplification by SemiconductorLasers,” in Semiconductors and Semimetals, eds. R. K. Willardson and A. C. Beer(Academic Press, New York, 1985), Vol. 22-E, pp. 265-319. 35

45. S. Machida and Y. Yamamoto, “Observation of Sub-Poissonian Photoelectron Statisticsin a Negative Feedback Semiconductor Laser,” Opt. Commun. 57, 290-296 (March1986). 70

46. S. Machida and Y. Yamamoto, “Quantum-Limited Operation of Balanced Mixer Homo-dyne and Heterodyne Receivers,” IEEE J. Quantum Electron. QE-22, 617-624 (May1986). 21

47. Y. Yamamoto, N. Imoto, and S. Machida, “Amplitude Squeezing in a Semiconduc-tor Laser Using Quantum Nondemolition Measurement and Negative Feedback,” Phys.Rev. A 33, 3243-3261 (May 1986). 146

48. H. A. Haus and Y. Yamamoto, “Theory of Feedback-Generated Squeezed States,” Phys.Rev. A 34, 270-292 (July 1986). 62

49. Y. Yamamoto and N. Imoto, “Internal and External Field Fluctuations of a LaserOscillator: Part I – Quantum Mechanical Langevin Treatment,” IEEE J. QuantumElectron. QE-22, 2032-2042 (October 1986). 50

50. O. Nilsson, Y. Yamamoto, and S. Machida, “Internal and External Field Fluctuationsof a Laser Oscillator: Part II – Electrical Circuit Theory,” IEEE J. Quantum Electron.QE-22, 2043-2051 (October 1986). 27

51. Y. Yamamoto and H. A. Haus, “Preparation Measurement and Information Capacityof Optical Quantum States,” Rev. Mod. Phys. 58, 1001-1020 (October 1986). 193

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52. M. Kitagawa and Y. Yamamoto, “Number-Phase Minimum-Uncertainty State withReduced Number Uncertainty in a Kerr Nonlinear Interferometer,” Phys. Rev. A 34,3974-3988 (November 1986). 226

53. Y. Yamamoto, S. Machida, and O. Nilsson, “Amplitude Squeezing in a Pump-Noise-Suppressed Laser Oscillator,” Phys. Rev. A 34, 4025-4042 (November 1986). 297

54. H. A. Haus and Y. Yamamoto, “Quantum Circuit Theory of Phase-Sensitive LinearSystems,” IEEE J. Quantum Electron. QE-23, 212-221 (February 1987). 6

55. S. Machida, Y. Yamamoto, and Y. Itaya, “Observation of Amplitude Squeezing ina Constant-Current-Driven Semiconductor Laser,” Phys. Rev. Lett. 58, 1000-1003(March 1987). 289

56. Y. Yamamoto and S. Machida, “High-Impedance Suppression of Pump Fluctuation andAmplitude Squeezing in Semiconductor Lasers,” Phys. Rev. A 35, 5114-5130 (June1987). 137

57. M. Kitagawa, N. Imoto, and Y. Yamamoto, “Realization of Number-Phase Minimum-Uncertainty States and Number States by Quantum Nondemolition Measurement,”Phys. Rev. A 35, 5270-5273 (June 1987). 42

58. Y. Yamamoto, S. Machida, N. Imoto, M. Kitagawa, and G. Bjork, “Generation ofNumber-Phase Minimum-Uncertainty States and Number States,” J. Opt. Soc. Am.4, 1645-1661 (October 1987). 65

59. Y. Yamamoto, “Frequency Modulation and Frequency Noise in Semiconductor Lasers,”in Fundamentals of Semiconductor Lasers, eds. H. Takuma and M. Karino (OHMPublishers, Tokyo, 1987 [in Japanese]), pp. 49-76.

60. G. Bjork and Y. Yamamoto, “Generation and Amplification of Number States by Non-degenerate Parametric Oscillators with Idler-Measurement Feedback,” Phys. Rev. A37, 125-147 (January 1988). 39

61. S. Machida and Y. Yamamoto, “Ultrabroadband Amplitude Squeezing in a Semicon-ductor Laser,” Phys. Rev. Lett. 60, 792-794 (February 1988). 105

62. G. Bjork and Y. Yamamoto, “Phase Correlation in Nondegenerate Parametric Oscilla-tors and Amplifiers: Theory and Applications,” Phys. Rev. A 37, 1991-2006 (March1988). 17

63. G. Bjork and Y. Yamamoto, “Generation of Nonclassical Photon States Using Corre-lated Photon Pairs and Linear Feedforward,” Phys. Rev. A 37, 4229-4239 (June 1988).17

64. K. Watanabe and Y. Yamamoto, “Quantum Correlation and State Reduction of PhotonTwins Produced by a Parametric Amplifier,” Phys. Rev. A 38, 3556-3565 (October1988). 24

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65. Y. Yamamoto, M. Kitagawa, and K. Igeta, “Quantum Mechanical Aspects of OpticalCommunication and Optical Computing,” in Proceedings of the 3rd Asia Pacific PhysicsConference, eds. Y. W. Chan, A. F. Leung, C. N. Yang, and K. Young (World Scientific,New Jersey, 1988), pp. 779-799.

66. K. Nosu, Y. Yamamoto, and T. Matsumoto, Coherent Optical Communications (Japan,Institute of Electrical Information and Communication Engineers [IEICE], 1988 [inJapanese]).

67. K. Watanabe, H. Nakano, A. Honold, and Y. Yamamoto, “Optical Nonlinearities of Ex-citonic Self-Induced-Transparency Solitons: Toward Ultimate Realization of SqueezedStates and Quantum Nondemolition Measurement,” Phys. Rev. Lett. 62, 2257-2260(May 1989). 37

68. H. A. Haus, K. Watanabe, and Y. Yamamoto, “Quantum Nondemolition Measurementof Optical Solitons,” J. Opt. Soc. Am. B 6, 1138-1148 (June 1989). 43

69. S. Machida and Y. Yamamoto, “Observation of Amplitude Squeezing from Semiconduc-tor Lasers by Balanced Direct Detectors with a Delay Line,” Opt. Lett. 14, 1045-1047(October 1989). 43

70. Y. Yamamoto and T. Mukai, “Fundamentals of Optical Amplifiers,” Opt. QuantumElectron. 21, S1-S14 (December 1989). 25

71. Y. Yamamoto, S. Machida K. Watanabe, K. Igeta, M. Ueda, and H. A. Haus, “Gen-eration and Quantum Nondemolition Measurement of Number-Phase Squeezed Statesof Light,” in Atomic Physics II, eds. S. Haroche, J. C. Gay, and G. Grynberg (WorldScientific, New Jersey, 1989), pp. 483-501.

72. K. Watanabe, H. Nakano, A. Honold, Y. Yamamoto, H. A. Haus, and Y. Lai, “Squeezingand Quantum Nondemolition Measurement Using Self-Induced Transparency Solitons,”in Quantum Optics V, eds. J. D. Harvey and D. F. Walls (Springer-Verlag, New York,1989), pp. 80-89.

73. G. Bjork, O. Nilsson, Y. Yamamoto, and S. Machida, “Generation of Number-PhaseSqueezed States,” in Squeezed and Nonclassical Light, eds. P. Tombesi and R. E. Pike(Plenum Press, New York, 1989), pp. 185-201.

74. M. Ueda and Y. Yamamoto, “Exact Time-Domain Description of the Crossover fromRandom to Coulomb-Regulated Single-Electron Tunneling in Ultrasmall Normal TunnelJunctions,” Phys. Rev. B 41, 3082-3086 (February 1990). 8

75. N. Sarukura, Y. Ishida, H. Nakano, and Y. Yamamoto, “CW Passive Mode Locking ofa Ti:Sapphire Laser,” Appl. Phys. Lett. 56, 814-815 (March 1990). 30

76. Y. Yamamoto and H. A. Haus, “Commutation Relations and Laser Linewidth,” Phys.Rev. A 41, 5164-5170 (May 1990). 11

77. L. Gillner, G. Bjork, and Y. Yamamoto, “Quantum Noise Properties of an Injection-Locked Laser Oscillator with Pump-Noise-Suppression and Squeezed Injection,” Phys.Rev. A 41, 5053-5065 (May 1990). 14

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78. K. Watanabe and Y. Yamamoto, “Limits on Tradeoffs between Third-Order OpticalNonlinearity, Absorption Loss, and Pulse Duration in Self-Induced Transparency andReal Excitation,” Phys. Rev. A 42, 1699-1702 (August 1990). 6

79. C. Y. Wang, Y. Ishida, and Y. Yamamoto, “Self-Phase-Modulation-Control Led Pas-sively Mode-Locked Dye Laser,” Opt. Lett. 15, 965-967 (September 1990). 9

80. K. Watanabe, Y. Ishida, Y. Yamamoto, H. A. Haus, and Y. Lai, “Femtosecond Squeezed-Vacuum-State Generation in Mode-Locked Soliton Lasers,” Phys. Rev. A 42, 5667-5674(November 1990). 5

81. Y. Yamamoto, “Quantum Communication and Related Technologies,” Trans. IEICEof Japan E73, 1598-1610 (December 1990) [Invited Paper].

82. Y. Yamamoto, S. Machida, S. Saito, N. Imoto, T. Yanagawa, M. Kitagawa, and G. Bj”ork,“Quantum Mechanical Limit in Optical Precision Measurement and Communication,”in Progress in Optics XXVIII, ed. E. Wolf, (North-Holland, Amsterdam, 1990), pp. 89-179. 26

83. M. Yamanishi and Y. Yamamoto, “An Ultimately Low-Threshold Semiconductor Laserwith Separate Quantum Confinements of Single Field Mode and Single Electron-HolePair,” Jpn. J. Appl. Phys. 30, L60-L63 (January 1991). 12

84. Y. Yamamoto, S. Machida, Y. Horikoshi, K. Igeta, and G. Bjork, “Enhanced and Inhib-ited Spontaneous Emission of Free Excitons in GaAs Quantum Wells in a Microcavity,”Opt. Commun. 80, 337-342 (January 1991). 54

85. W. B. Jiang, S. R. Friberg, H. Iwamura, and Y. Yamamoto, “High Power and Subpi-cosecond Pulses from an External-Cavity Surface-Emitting InGaAs/InP Multiple Quan-tum Well Laser,” Appl. Phys. Lett. 58, 807-809 (February 1991). 13

86. W. H. Richardson and Y. Yamamoto, “Quantum Correlation Between the Junction-Voltage Fluctuation and the Photon-Number Fluctuation in a Semiconductor Laser,”Phys. Rev. Lett. 66, 1963-1966 (April 1991). 29

87. W. H. Richardson, S. Machida, and Y. Yamamoto, “Squeezed Photon Number Noiseand Sub-Poissonian Electrical Partition Noise in a Semiconductor Laser,” Phys. Rev.Lett. 66, 2867-2870 (June 1991). 137

88. Y. Yamamoto, S. Machida, and G. Bjork, “Microcavity Semiconductor Laser with En-hanced Spontaneous Emission,” Phys. Rev. A 44, 657-668 (July 1991). 141

89. G. Bjork, S. Machida, Y. Yamamoto, and K. Igeta, “Modification of Spontaneous Emis-sion Rate in Planar Dielectric Microcavity Structures,” Phys. Rev. A 44, 669-681 (July1991). 223

90. W. B. Jiang, S. R. Friberg, H. Iwamura, and Y. Yamamoto, “Colliding Pulse Mode-Locking in a Linear Cavity NaCl Color Center Laser with a InGaAs/InP MultipleQuantum Well Saturable Absorber,” Opt. Lett. 16, 1165-1167 (August 1991). 2

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91. W. H. Xiang, S. R. Friberg, K. Watanabe, S. Machida, W. Jiang, H. Iwamura, andY. Yamamoto, “Femtosecond External-Cavity Surface-Emitting InGaAs/InP Multiple-Quantum-Well Laser,” Opt. Lett. 16, 1394-1396 (September 1991). 11

92. Y. Yamamoto and S. Machida, “The Study of Microcavity Semiconductor Laser,” NTTR& D 40, 1233-1244 (September 1991) [in Japanese].

93. W. H. Xiang, S. R. Friberg, K. Watanabe, S. Machida, Y. Sakai, H. Iwamura, andY. Yamamoto, “Sub-100 Femtosecond Pulses from an External-Cavity Surface-EmittingInGaAs/InP Multiple Quantum Well Laser with Soliton-Effect Compression,” Appl.Phys. Lett. 59, 2076-2078 (October 1991). 14

94. M. Yamanishi, Y. Yamamoto, and T. Shiotani, “A Novel Modulation Scheme in Semi-conductor Light Emitters with Quantum Microcavities: High Speed Intensity Modu-lation by Switching of Coupling Efficiency of Spontaneous Emission,” IEEE Photon.Technol. Lett. 3, 888-890 (October 1991). 7

95. Y. Lai, H. A. Haus, and Y. Yamamoto, “Squeezed Vacuum from Amplitude SqueezedStates,” Opt. Lett. 16, 1517-1519 (October 1991). 11

96. G. Bjork and Y. Yamamoto, “Analysis of Semiconductor Microcavity Lasers UsingRate-Equations,” IEEE J. Quantum Electron. QE-27, 2386-2396 (November 1991).94

97. W. H. Richardson and Y. Yamamoto, “Quantum Measurement of the Photon Num-ber Via Junction Voltage in a Semiconductor Laser,” Phys. Rev. A 44, 7702-7716(December 1991). 17

98. Y. Yamamoto and G. Bjork, “Lasers without Inversion in Microcavities,” Jpn. J. Appl.Phys. 30, L2039-L2041 (December 1991). 9

99. Y. Yamamoto, S. Machida, and O. Nilsson, “Squeezed State Generation by Semicon-ductor Lasers,” in Coherence, Amplification, and Quantum Effects in SemiconductorLasers,” ed. Y. Yamamoto (John Wiley & Sons, Inc., New York, 1991), pp. 461-537.

100. Y. Yamamoto, S. Machida, K. Igeta, and G. Bjork, “Controlled Spontaneous Emissionin Microcavity Semiconductor Lasers,” in Coherence, Amplification, and Quantum Ef-fects in Semiconductor Lasers,” ed. Y. Yamamoto (John Wiley & Sons, Inc., New York,1991), pp. 561-615.

101. S. Kobayashi, Y. Yamamoto, and T. Kimura, “Frequency and Phase Modulation ofSemiconductor Lasers,” in Topics in Lightwave Transmission Systems, ed. T. Li (Aca-demic Press, New York, 1991), pp. 151-201.

102. S. Saito, Y. Yamamoto, and T. Kimura, “Coherent Optical Fiber Transmission Sys-tems,” in Topics in Lightwave Transmission Systems, ed. T. Li (Academic Press, SanDiego, 1991), pp. 203-266.

103. G. Bjork, A. Karlsson, and Y. Yamamoto, “On the Linewidth of Microcavity Lasers,”Appl. Phys. Lett. 60, 304-306 (January 1992). 22

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104. Y. Yamamoto, S. Machida, and G. Bjork, “Micro-Cavity Semiconductor Lasers withControlled Spontaneous Emission,” Opt. Quantum Electron. 24, S215-S243 (January1992) [Invited Paper]. 33

105. D. C. Sun and Y. Yamamoto, “Passive Stabilization of a Synchronously Pumped External-Cavity Surface-Emitting InGaAs/InP Multiple Quantum Well Laser by a CoherentPhoton-Seeding Technique,” Appl. Phys. Lett. 60, 1286-1288 (March 1992). 6

106. Y. Yamamoto, S. Machida, and W. H. Richardson, “Photon Number Squeezed Statesin Semiconductor Lasers,” Science 255, 1219-1224 (March 1992). 26

107. Y. Yamamoto and H. A. Haus, “Effect of Electrical Partition Noise on Squeezing inSemiconductor Lasers,” Phys. Rev. A 45, 6569-6604 (May 1992). 19

108. R. J. Horowicz, H. Heitmann, Y. Kadota, and Y. Yamamoto, “GaAs MicrocavityQuantum-Well Laser with Enhanced Coupling of Spontaneous Emission to the Las-ing Mode,” Appl. Phys. Lett. 61, 393-395 (July 1992). 27

109. S. Inoue, H. Ohzu, S. Machida, and Y. Yamamoto, “Quantum Correlation BetweenLongitudinal-Mode Intensities in a Multimode Squeezed Semiconductor Laser,” Phys.Rev. A 46, 2757-2765 (September 1992). 58

110. A. Imamoglu, Y. Yamamoto, and P. Solomon, “Single-Electron Thermionic-EmissionOscillations in p-n Microjunctions,” Phys. Rev. B 46, 9555-9563 (October 1992). 21

111. S. R. Friberg, S. Machida, and Y. Yamamoto, “Quantum-Nondemolition Measurementof the Photon Number of an Optical Soliton,” Phys. Rev. Lett. 69, 3165-3168 (Novem-ber 1992). 83

112. A. Imamoglu and Y. Yamamoto, “Nonclassical Light Generation by Coulomb Blockadeof Resonant Tunneling,” Phys. Rev. B 46, 15982-15991 (December 1992). 27

113. Y. Yamamoto, W. H. Richardson, and S. Machida, “Quantum Mechanical Watch-DogEffect and Measurement-Induced State Reduction in a Semiconductor Laser,” in Quan-tum Measurements in Optics, eds. P. Tombesi and D. F. Walls (Plenum Press, NewYork, 1992), pp. 65-84.

114. Y. Yamamoto, S. Machida, and G. Bjork, “Cavity Quantum Electrodynamics in Quan-tum Well Lasers,” Surf. Sci. 267, 605-611 (January 1993). 8

115. F. M. Matinaga, A. Karlsson, S. Machida, Y. Yamamoto, T. Suzuki, Y. Kadota, andM. Ikeda, “Low-Threshold Operation of Hemispherical Microcavity Single- Quantum-Well Lasers at 4K,” Appl. Phys. Lett. 62, 443-445 (February 1993). 24

116. A. Imamoglu and Y. Yamamoto, “Noise Suppression in Semiconductor p-i-n Junctions:Transition from Macroscopic Squeezing to Mesoscopic Coulomb Blockade of ElectronEmission Process,” Phys. Rev. Lett. 70, 3327-3330 (May 1993). 43

117. G. Bjork, H. Heitmann, and Y. Yamamoto, “Spontaneous-Emission Coupling Factorand Mode Characteristics of Planar Dielectric Microcavity Lasers,” Phys. Rev. A 47,4451-4463 (May 1993). 88

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118. Y. Yamamoto and R. E. Slusher, “Optical Processes in Microcavities,” Physics Today(June 1993), 46, pp. 66-73. 248

119. H. Heitmann, Y. Kadota, T. Kawakami, and Y. Yamamoto, “Single Transverse ModeMicrocavity Laser with Ultralow Threshold,” Jpn. J. Appl. Phys. 32, L1141-L1143(August 1993). 5

120. Y. Yamamoto, S. Inoue, W. H. Richardson, and S. Machida, “Quantum State Control inSemiconductor p-n Junctions (I) - Squeezed State Generation in Semiconductor Lasers,”Int. J. Mod. Phys. B 7, 1577-1652 (August 1993). 3

121. Y. Yamamoto, G. Bjork, A. Karlsson, H. Heitmann, and F. M. Matinaga, “QuantumState Control in Semiconductor p-n Junctions (II) - Controlled Spontaneous Emissionin Quantum Well Microcavity Lasers,” Int. J. Mod. Phys. B 7, 1653-1695 (August1993). 8

122. P. D. Drummond, R. M. Shelby, S. R. Friberg, and Y. Yamamoto, “Quantum Solitonsin Optical Fibers,” Nature 365, 307-313 (September 1993). 102

123. S. Inoue, S. Machida, Y. Yamamoto, and H. Ohzu, “Squeezing in an Injection-LockedSemiconductor Laser,” Phys. Rev. A 48, 2230-2234 (September 1993). 25

124. K. Watanabe, H. Iwamura, and Y. Yamamoto, “Effect of Additive-Pulse Mode Lockingon an External-Cavity Surface-Emitting InGaAs Semiconductor Laser,” Opt. Lett. 18,1642-1644 (October 1993). 3

125. Y. Yamamoto, F. M. Matinaga, S. Machida, A. Karlsson, J. M. Jacobson, G. Bjork, andT. Mukai, “Quantum Electrodynamics Effects in Semiconductor Microcavities - Micro-lasers and Coherent Exciton-Polariton Emission,” J. de Physique IV, 39-46 (October1993). 46

126. A. Imamoglu and Y. Yamamoto, “Quantum State Control in Semiconductor p-n Junc-tions (III) - Coulomb Blockade of Resonant Tunneling in p-n Microjunctions,” Int. J.Mod. Phys. B 7, 2065-2083 (November 1993). 4

127. S. Inoue, S. Machida, Y. Yamamoto, and H. Ohzu, “Phase to Amplitude ConversionNoise in Squeezed Vacuum State Generation from a Semiconductor Laser,” J. Opt. Soc.Am. B10, 2121-2129 (November 1993). 2

128. Y. Yamamoto and A. Imamoglu, “Quantum State Control in Semiconductor p-n Junc-tions,” in Quantum Control and Measurement, eds. H. Ezawa and Y. Murayama (North-Holland, Amsterdam, 1993), pp. 125-136.

129. S. Inoue, H. Ohzu, S. Machida, and Y. Yamamoto, “Squeezed Vacuum from a Semicon-ductor Laser,” in Quantum Control and Measurement, eds. H. Ezawa and Y. Murayama,(North-Holland, Amsterdam, 1993), pp. 137-142.

130. H. Heitmann, G. Bjork, F. M. Matinaga, A. Karlsson, R. J. Horowicz, and Y. Ya-mamoto, “Control of Spontaneous Emission in Semiconductor Microlasers,” in Quan-tum Control and Measurement, eds. H. Ezawa and Y. Murayama, (North-Holland,Amsterdam, 1993), pp. 149-154.

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131. Y. Lee, M. Yamanishi, and Y. Yamamoto, “Interaction of Vacuum Field Fluctuationswith Electron System in a Microcavity,” in Quantum Control and Measurement, eds.H. Ezawa and Y. Murayama, (North-Holland, Amsterdam, 1993), pp. 161-166.

132. S. R. Friberg, S. Machida, and Y. Yamamoto, “Quantum Nondemolition Measurementsvia Soliton Collisions,” in Quantum Control and Measurement, eds. H. Ezawa andY. Murayama, (North-Holland, Amsterdam, 1993), pp. 185-190.

133. Y. Yamamoto, G. Bjork, H. Heitmann, and R. J. Horowicz, “Controlled SpontaneousEmission in Quantum Well Microcavities,” in Optics of Semiconductor Nanostructures,eds. F. Henneberger, S. Schmitt-Rink, and E. O. Gobel (Akademie Verlag, Berlin 1993),pp. 547-584.

134. A. Imamoglu and Y. Yamamoto, “Turnstile Device for Heralded Single Photons: CoulombBlockade of Electron and Hole Tunneling in Quantum Confined p-i-n Heterojunctions,”Phys. Rev. Lett. 72, 210-213 (January 1994). 96

135. Y. Yamamoto, “The Quantum Optical Repeater,” Science 263, 1394-1395 (March1994). 6

136. J. M. Jacobson, Y. Yamamoto, and A. Imamoglu, “A Quantized-Current StandardBased on Coherent π-Pulse Excitation of a Quantum Dot,” Europhys. Lett. 26, 129-133 (April 1994). 3

137. R. C. Liu and Y. Yamamoto, “Suppression of Quantum Partition Noise in MesoscopicElectron Branching Circuits,” Phys. Rev. B 49, 10520-10532 (April 1994). 23

138. G. Bjork, A. Karlsson, and Y. Yamamoto, “Definition of a Laser Threshold,” Phys.Rev. A 50, 1675-1680 (August 1994). 34

139. A. Imamoglu and Y. Yamamoto, “Quantum Monte Carlo Wave-Function Approachto Dissipative Processes in Mesoscopic Semiconductors,” Phys. Lett. A 191, 425-430(August 1994). 10

140. G. Bjork, S. Pau, J. M. Jacobson, and Y. Yamamoto, “Wannier Exciton Superradiancein a Quantum-Well Microcavity,” Phys. Rev. B 50, 17336-17348 (December 1994). 38

141. R. C. Liu and Y. Yamamoto, “Nyquist Noise in the Transition from Mesoscopic toMacroscopic Transport,” Phys. Rev. B 50, 17411-17414 (December 1994). 13

142. Y. Yamamoto and I. L. Chuang, “Physical Limits for Computing and Communication,”in Proceedings of the 13th World Computer Congress 94, eds. B. Pehrson and I. Simon(North-Holland, Amsterdam, 1994), 1, pp. 3-14. 0

143. Y. Yamamoto, J. M. Jacobson, S. Pau, H. Cao, and G. Bjork, “Exciton-Polaritons inMicrocavities,” in Nanostructures and Quantum Effects, eds. H. Sakaki and H. Noge,(Springer-Verlag, Berlin-Heidelberg, 1994), 31, pp. 157-164.

144. W. H. Richardson, J. Kim, and Y. Yamamoto, “Investigation of Coulomb-BlockadeEffects on the Squeezing Bandwidth of Semiconductor Lasers,” in Nanostructures andQuantum Effects, eds. H. Sakaki and H. Noge, (Springer-Verlag, Berlin-Heidelberg,1994),31, pp. 165-168.

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145. J. M. Jacobson, H. Cao, G. Bjork, S. Pau, and Y. Yamamoto, “Particle Statisticsand Quantum Dynamics in a Semiconductor Quantum-Well Microcavity,” in ExtendedAbstracts of the 1994 International Conference on Solid State Devices and Materials(The Japan Society of Applied Physics, 1994) pp. 133-135.

146. A. Imamoglu and Y. Yamamoto, “Single-Photon Turnstile Device Based on CoulombBlockade of Electron and Hole Tunneling in p-i-n Heterojunctions,” in Proceedings ofthe SPIE Conference on Physics and Simulation of Optoelectronic Devices II, (TheSociety of Photo-Optical Instrumentation Engineers, Bellingham, WA, 1994), 2146,pp. 318-328.

147. J. M. Jacobson, G. Bjork, and Y. Yamamoto, “Quantum Limit for the Atom-LightInterferometer,” Appl. Phys. B 60, 187-191 (January 1995). 5

148. H. Cao, J. M. Jacobson, G. Bjork, S. Pau, and Y. Yamamoto, “Observation of Dressed-Exciton Oscillating Emission over a Wide Wavelength Range in a Semiconductor Mi-crocavity,” Appl. Phys. Lett. 66, 1107-1109 (February 1995). 48

149. J. M. Jacobson, S. Pau, H. Cao, G. Bjork, and Y. Yamamoto, “Observation of Exciton-Polariton Oscillating Emission in a Single-Quantum-Well Semiconductor Microcavity,”Phys. Rev. A 51, 2542-2544 (March 1995). 61

150. S. Pau, G. Bjork, J. M. Jacobson, H. Cao, and Y. Yamamoto, “Stimulated Emissionof Microcavity Dressed Exciton and Suppression of Phonon Scattering,” Phys. Rev. B51, 7090-7100 (March 1995). 65

151. R. C. Liu and Y. Yamamoto, “Conductance Dependent Suppression of Current PartitionNoise in Mesoscopic Electron Branching Circuits,” Physica B 210, 37-42 (April 1995).1

152. Y. Yamamoto and W. H. Richardson, “Squeezed States: A CLOSER LOOK AT THEAMPLITUDE AND PHASE OF LIGHT,” Optics and Photonics News, 6, 24-29 (May1995).

153. O. Alter and Y. Yamamoto, “Inhibition of the Measurement of the Wave Function of aSingle Quantum System in Repeated Weak Quantum Nondemolition Measurements,”Phys. Rev. Lett. 74, 4106-4109 (May 1995). 19

154. S. Pau, G. Bjork, J. M. Jacobson, H. Cao, and Y. Yamamoto, “Microcavity Exciton-Polariton Splitting in the Linear Regime,” Phys. Rev. B 51, 14437-14447 (May 1995).65

155. J. M. Jacobson, G. Bjork, I. L. Chuang, and Y. Yamamoto, “Photonic de BroglieWaves,” Phys. Rev. Lett. 74, 4835-4838 (June 1995). 63

156. J. Kim, H. Kan, and Y. Yamamoto, “Macroscopic Coulomb-Blockade Effect in a Constant-Current-Driven Light-Emitting Diode,” Phys. Rev. B 52, 2008-2012 (July 1995). 27

157. D. K. Serkland, M. M. Fejer, R. L. Byer, and Y. Yamamoto, “Squeezing in a Quasi-Phase-Matched LiNbO3 Waveguide,” Opt. Lett. 20, 1649-1651 (August 1995). 33

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158. H. Cao, G. Klimoticth, G. Bjork, and Y. Yamamoto, “Direct Creation of Quantum WellExcitons by Electron Resonant Tunneling,” Phys. Rev. Lett. 75, 1146-1149 (August1995). 23

159. S. Inoue and Y. Yamamoto, “Recent Developments in Amplitude Squeezed State Gen-eration from Semiconductor Lasers,” Oyo Buturi, 64, 895-898 (September 1995 [inJapanese]).

160. H. Cao, G. Klimoticth, G. Bjork, and Y. Yamamoto, “Theory of Direct Creation ofQuantum-Well Excitons by Hole-Assisted Electron Resonant Tunneling,” Phys. Rev.B 52, 12184-12190 (October 1995). 10

161. I. L. Chuang and Y. Yamamoto, “Simple Quantum Computer,” Phys. Rev. A 52,3489-3496 (November 1995). 95

162. S. Pau, G. Bjork, J. M. Jacobson, and Y. Yamamoto, “Phonon-Polariton Interactionin a Microcavity,” Il Nuovo Cimento 17, 1657-1662 (November/December 1995). 3

163. G. Bjork, S. Pau, J. M. Jacobson, H. Cao, and Y. Yamamoto, “Excitonic Superradianceto Exciton-Polariton Crossover and the Pole Approximation,” Phys. Rev. B 52, 17310-17320 (December 1995). 19

164. A. Imamoglu, J. M. Jacobson, and Y. Yamamoto, “Quantum-Dot Single-Photon andElectron-Hole Turnstile Devices,” in Compound Semiconductors, eds. H. Goronkin andU. Mishra (IOP Publishing, Bristol, 1995), pp. 879-884. 0

165. G. Bjork and Y. Yamamoto, “Spontaneous Emission in Dielectric Planar Microcavities,”in Spontaneous Emission and Laser Oscillation in Microcavities, eds. K. Ujihara andH. Yokoyama (CRC Press, Boca Raton, FL, 1995), pp. 189-235.

166. G. Bjork, Y. Yamamoto, and H. Heitmann, “Spontaneous Emission Control in Semi-conductor Microcavities,” in Confined Electrons and Photons, eds. E. Burstein andC. Weisbuch (Plenum Press, New York, 1995), pp. 467-501.

167. O. Alter and Y. Yamamoto, “Can We Measure the Wave Function of a Single WavePacket of Light? in Fundamental Problems in Quantum Theory, eds. D. M. Greenbergerand A. Zeilinger (The New York Academy of Sciences, New York, 1995), 755, pp. 103-109. 0

168. G. Bjork, H. Cao, J. M. Jacobson, S. Pau, and Y. Yamamoto, “Microcavity LaserPhysics,” in Proceedings of the SPIE Conference on Physics and Simulation of Opto-electronic Devices III (The Society of Photo-Optical Instrumentation Engineers, Belling-ham, WA, 1995), 2399, pp. 538-551.

169. S. Inoue, G. Bjork, and Y. Yamamoto, “Sub-Shot-Noise Interferometry with AmplitudeSqueezed Light from a Semiconductor Laser,” in Proceedings of the SPIE Conferenceon Laser Frequency Stabilization and Noise Reduction (The Society of Photo-OpticalInstrumentation Engineers, Bellingham, WA, 1995), 2378, pp. 99-106.

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170. S. Kasapi, S. Lathi, and Y. Yamamoto, “Sub-Shot-Noise FM Spectroscopy with anAmplitude-Squeezed Diode Laser at Room Temperature,” in Proceedings of the SPIEConference on Laser Frequency Stabilization and Noise Reduction (The Society of Photo-Optical Instrumentation Engineers, Bellingham, WA, 1995), 2378, pp. 108-115.

171. R. C. Liu and Y. Yamamoto, “Partition Noise in Electron Transport,” in QuantumDynamics of Submicron Structures, eds. H. A. Cerdeira, B. Kramer, and G. Schon(Kluwer Academic Publishers, Dordrecht-Boston, 1995) pp. 427-442.

172. T. Hiroshima and Y. Yamamoto, “Nonlinear Optical Response of Cold Atoms,” Phys.Rev. A 53, 1048-1051 (February 1996). 3

173. S. Pau, G. Bjork, J. M. Jacobson, and Y. Yamamoto, “Fundamental ThermodynamicLimit of Laser Efficiency,” IEEE J. Quantum Electron. QE-32, 567-573 (March 1996).0

174. T. Yamada and Y. Yamamoto, and W. A. Harrison, “Energy Band of ManipulatedAtomic Structures on an Insulator Substrate,” J. Vac. Sci. Technol. B 14, 1243-1249(March/April 1996). 11

175. D. H. Huang and Y. Yamamoto, “Scanning Tunneling Microscope Study of AtomicHydrogen Desorption from the Si(100)2×1:H Surface,” Scanning 18, 154-155 (April1996). 15

176. I. L. Chuang and Y. Yamamoto, “Quantum Bit Regeneration,” Phys. Rev. Lett. 76,4281-4284 (May 1996). 42

177. O. Alter and Y. Yamamoto, “Protective Measurement of the Wave Function of a SingleSqueezed Harmonic Oscillator State,” Phys. Rev. A 53, R2911-R2914 (May 1996). 9

178. G. Bjork, S. Pau, J. M. Jacobson, H. Cao, and Y. Yamamoto, “Effect of Dephasingon Exciton Superradiance and Exciton Cavity Polaritons,” J. Opt. Soc. Am. B 13,1069-1077 (May 1996). 4

179. S. Pau, J. M. Jacobson, G. Bjork, and Y. Yamamoto, “Phonon-Assisted Exciton-Polariton Emission in a Microcavity,” J. Opt. Soc. Am. B 13, 1078-1084 (May 1996).9

180. A. Imamoglu, R. J. Ram, S. Pau, and Y. Yamamoto, “Nonequilibrium Condensatesand Lasers without Inversion: Exciton-Polariton Lasers,” Phys. Rev. A 53, 4250-4253(June 1996). 85

181. D. H. Huang and Y. Yamamoto, “Si Dimer Chain on Si(100)-2×1:H Surface Fabricatedby Scanning Tunneling Microscope,” Jpn. J. Appl. Phys. 35, 3734-3737 (June 1996).15

182. T. Yamada and Y. Yamamoto, “Energy Band for Manipulated Atomic Structures of Si,GaAs, and Mg on an Insulating Substrate,” Phys. Rev. B 54, 1902-1908 (July 1996).6

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183. S. Pau, H. Cao, J. M. Jacobson, G. Bjork, and Y. Yamamoto, “Observation of a Laser-like Transition in a Microcavity Exciton Polariton System,” Phys. Rev. A 54, R1789-R1792 (September 1996). 52

184. H. Cao, S. Pau, Y. Yamamoto, and G. Bjork, “Exciton-Polariton Ladder in a Semicon-ductor Microcavity,” Phys. Rev. B 54, 8083-8086 (September 1996). 8

185. D. H. Huang and Y. Yamamoto, “Hydrogen Atom Extraction and Redeposition onHydrogen-Terminated Silicon Surface with Scanning Tunneling Microscope at RoomTemperature,” Scanning Microscopy 10, 717-726 (September 1996).

186. D. H. Huang and Y. Yamamoto, “Manipulating Atoms One by One with a ScanningTunneling Microscope, Surface Review and Letters 3, 1463-1472 (September 1996). 5

187. S. Lathi, S. Kasapi, and Y. Yamamoto, “Phase-Sensitive Frequency-Modulation NoiseSpectroscopy with a Diode Laser,” Opt. Lett. 21, 1600-1602 (October 1996). 5

188. F. Yamaguchi and Y. Yamamoto, “Current through a Single Atom,” Electron. Lett.32, 2219-2221 (November 1996). 1

189. Y. Yamamoto, “Quantum Interference of Photons,” Science Journal KAGAKU 66,864-872 (December 1996 [in Japanese]).

190. S. Pau, G. Bjork, H. Cao, E. Hanamura, and Y. Yamamoto, “Theory of InhomogeneousMicrocavity Polariton Splitting,” Solid State Commun. 98, 781-784 (1996). 12

191. Y. Yamamoto, J. M. Jacobson, S. Pau, H. Cao, and G. Bjork, “Dressed Fermion vs.Dressed Boson: Semiconductor Cavity QED in High-Q Regimes,” in Quantum Coher-ence and Decoherence, eds. K. Fujikawa and Y. A. Ono (North-Holland, Amsterdam,1996), pp. 5-10.

192. O. Alter and Y. Yamamoto, “The Unknown Wavefunction of a Single System cannotbe Inferred using a Series of Quantum Measurements,” in Quantum Coherence andDecoherence, eds. K. Fujikawa and Y. A. Ono (North-Holland, Amsterdam, 1996),pp. 31-34.

193. T. Hiroshima and Y. Yamamoto, “Nonlinear Optical Response of Cold Atoms,” inQuantum Coherence and Decoherence, eds. K. Fujikawa and Y. A. Ono (North-Holland,Amsterdam, 1996), pp. 35-38.

194. I. L.Chuang, R. Laflamme, and Y. Yamamoto, “Decoherence and a Simple QuantumComputer,” in Quantum Coherence and Decoherence, eds. K. Fujikawa and Y. A. Ono(North-Holland, Amsterdam, 1996), pp. 299-302.

195. Y. Yamamoto, “Quantum Optics,” in Encyclopedia of Applied Physics,” ed. G. L. Trigg(VCH Publishers Inc., New York, 1996), 15, pp. 307-337.

196. Y. Yamamoto, “Squeezing and Cavity QED in Semiconductors,” in Quantum Opticsof Confined Systems, eds. M. Ducloy and D. Bloch (Kluwer Academic Publishers,Dordrecht-Boston, 1996), pp. 201-281.

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197. O. Alter and Y. Yamamoto, “Inhibition of the Measurement of the Wavefunction ofa Single Quantum System and the Projection Postulate,” in Quantum Physics, ChaosTheory and Cosmology, eds. M. Namiki, I. Ohba, K. Maeda, and Y. Aizawa (AmericanInstitute of Physics, New York, 1996), pp. 151-172.

198. O. Alter and Y. Yamamoto, “The Quantum Zeno Effect of a Single System is Equivalentto the Indetermination of the Quantum State of a Single System,” in Proceedings of anAdriatico Conference on Quantum Interferometry II, eds. F. DeMartini, G. Denardo,and Y. Shih (VCH, Weinheim, Germany, 1996), pp. 539-544.

199. Y. Yamamoto, J. M. Jacobson, S. Pau, H. Cao, and G. Bjork, “Semiconductor CavityQED in High-Q Regime,” in Coherence and Quantum Optics VII, eds. J. H. Eberly,L. Mandel, and E. Wolf (Plenum Press, New York, 1996), pp. 211-220.

200. S. Pau, J. M. Jacobson, G. Bjork, and Y. Yamamoto, “Stimulated Emission of Micro-cavity Exciton Polariton,” in Coherence and Quantum Optics VII, eds. J. H. Eberly,L. Mandel, and E. Wolf (Plenum Press, New York, 1996), pp. 355-356.

201. T. Hiroshima and Y. Yamamoto, “Nonlinear Optical Response of Cold Atoms,” inCoherence and Quantum Optics VII, eds. J. H. Eberly, L. Mandel, and E. Wolf (PlenumPress, New York, 1996), pp. 387-388.

202. J. Kim, H. Kan, and Y. Yamamoto, “Macroscopic Coulomb-Blockade Effect in a Constant-Current-Driven Light-Emitting Diode,” in Coherence and Quantum Optics VII, eds.J. H. Eberly, L. Mandel, and E. Wolf (Plenum Press, New York, 1996), pp. 411-412.

203. D. K. Serkland, M. M. Fejer, R. L. Byer, and Y. Yamamoto, “Squeezing in a Quasi-Phase-Matched LiNbO3 Waveguide,” in Coherence and Quantum Optics VII, eds. J. H. Eberly,L. Mandel, and E. Wolf (Plenum Press, New York, 1996), pp. 477-478.

204. H. Cao, G. Klimovitch, G. Bjork, and Y. Yamamoto, “Direct Creation of Quantum WellExcitons by Hole Assisted Electron Resonant Tunneling,” in Coherence and QuantumOptics VII, eds. J. H. Eberly, L. Mandel, and E. Wolf (Plenum Press, New York, 1996),pp. 617-618.

205. J. M. Jacobson, G. Bjork, and Y. Yamamoto, “The Relation between Two HeisenbergLimited Interferometers: The Photonic de Broglie Wave Interferometer and the DualFock State Interferometer,” in Coherence and Quantum Optics VII, eds. J. H. Eberly,L. Mandel, and E. Wolf (Plenum Press, New York, 1996), pp. 671-672.

206. I. L. Chuang and Y. Yamamoto, “The Dual-Rail Quantum Bit and Quantum Er-ror Correction,” in Proceedings of the 4th Workshop on Physics and Computation(PhysComp96), eds. T. Toffoli et al. (New England Complex System Institute, 1996),pp. 82-86.

207. Y. Yamamoto, J. M. Jacobson, S. Pau, H. Cao, and G. Bjork, “Semiconductor CavityQED in High-Q Regimes: Exciton Polariton Boser and Nonlinear Bi-Excitonic Spec-trum,” in Microcavities and Photonic Bandgaps: Physics and Applications, eds. J. Rar-ity and C. Weisbuch (Kluwer Academic Publishers, The Netherlands, 1996), pp. 457-466.

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208. R. C. Liu, B. Odom, J. Kim, Y. Yamamoto, and S. Tarucha, “Partition Noise inMesoscopic Devices: Experiments in Quantum Electron Optics,” in Proceedings of the23rd International Conference on the Physics of Semiconductors, eds. M. Scheffler andR. Zimmermann (World Scientific, Singapore, 1996), 3, pp. 2399-2402.

209. R. C. Liu, P. Eastman, and Y. Yamamoto, “Simulations of Partition Noise Suppression,”in Quantum Transport in Semiconductor Submicron Structures, ed. B. Kramer (KluwerAcademic Publishers, The Netherlands, 1996), pp. 365-374.

210. I. L. Chuang and Y. Yamamoto, “Creation of a Persistent Quantum Bit Using ErrorCorrection,” Phys. Rev. A 55,114-127 (January 1997). 26

211. S. Pau, G. Bjork, H. Cao, F. Tassone, R. Huang, Y. Yamamoto, and R. P. Stanley, “LO-Phonon-Enhanced Microcavity Polariton Emission,” Phys. Rev. B 55, R1942-R1945(January 1997). 12

212. S. Inoue and Y. Yamamoto, “Longitudinal Mode-Partition Noise in a SemiconductorLaser Based Interferometer,” Opt. Lett. 22, 328-330 (March 1997). 10

213. G. Klimovitch, G. Bjork, H. Cao, and Y. Yamamoto, “Selective Resonant Tunnelinginto Microcavity Exciton Polariton State,” Phys. Rev. B 55, 7078-7083 (March 1997).4

214. H. Cao, G. Klimovitch, G. Bjork, Y. Yamamoto, “Tunneling Spectroscopy for QuantumWell Excitons,” Appl. Phys. Lett. 70, 1986-1988 (April 1997). 1

215. O. Alter and Y. Yamamoto, “Quantum Zeno Effect and the Indetermination of theQuantum State of a Single System,” Phys. Rev. A 55, R2499-R2502 (April 1997). 14

216. S. Kasapi, S. Lathi, and Y. Yamamoto, “Amplitude-Squeezed, Frequency-Modulated,Tunable, Diode-Laser-Based Source for Sub-Shot-Noise FM Spectroscopy,” Opt. Lett.22, 478-480 (April 1997). 31

217. J. Kim and Y. Yamamoto, “Theory of Noise in p-n Junction Light Emitters,” Phys.Rev. A 55, 9949-9959 (April 1997). 15

218. D. H. Huang and Y. Yamamoto, “Physical Mechanism of Hydrogen Deposition from aScanning Tunneling Microscopy Tip,” Appl. Phys. A 64, R419-422 (April 1997). 2

219. D. H. Huang and Y. Yamamoto, “Scanning Tunneling Microscopy Atom Manipulationfor Controlling Single Electrons and Single Photons,” J. Chin. Electr. Microsc. Soc.16, 517-520 (April 1997).

220. J. Kim, Y. Yamamoto, and H. Hogue, “Noise-free Avalanche Multiplication in Si SolidState Photomultipliers,” Appl. Phys. Lett. 70, 2852-2854 (May 1997). 18

221. H. Cao, S. Pau, J. M. Jacobson, G. Bjork, Y Yamamoto, and A. Imamoglu, “Transitionfrom a Microcavity Exciton Polariton to a Photon Laser,” Phys. Rev. A 55, 4632-4635(June 1997). 40

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222. F. Yamaguchi and Y. Yamamoto, “Even-Odd Conductance Oscillation in Atomic Wires,”Solid State Commun. 102, 779-783 (June 1997). 4

223. R. C. Liu, P. Eastman, and Y. Yamamoto, “Inhibition of Elastic and Inelastic Scatteringby the Pauli Exclusion Principle: Suppression Mechanism for Mesoscopic PartitionNoise,” Solid State Commun. 102, 785-789 (June 1997). 16

224. F. Yamaguchi, D. H. Huang, and Y. Yamamoto, “Theory of Transport through a SingleAtomic Junction,” Jpn. J. Appl. Phys. 36, 3799-3803 (June 1997). 6

225. O. Alter and Y. Yamamoto, “Reply to comment on ‘Protective Measurement of theWavefunction of a Single Squeezed Harmonic-Oscillator State’,” Phys. Rev. A 56,1057-1059 (July 1997).

226. G. Klimovitch, T. Lee, and Y. Yamamoto, “Physical Modelling of Enhanced High-Frequency Drain and Gate Current Noise in Short-Channel MOSFETs,” Proceedingsof the first International Workshop on Design of Mixed-Mode Integrated Circuits andApplications, 35-56 (July 1997).

227. I. L. Chuang, D. W. Leung, and Y. Yamamoto, “Bosonic Quantum Codes for AmplitudeDamping,” Phys. Rev. A 56, 1114-1125 (August 1997). 7

228. H. Cao, S. Jiang, S. Machida, Y. Takiguchi, and Y. Yamamoto, “Collapse and Revivalof Exciton-Polariton Oscillation in a Semiconductor Microcavity,” Appl. Phys. Lett.71, 1461-1463 (September 1997). 7

229. T. Hiroshima and Y. Yamamoto, “Many-Body Quantum Monte Carlo Wave-FunctionMethod for Laser Cooling,” Phys. Rev. A 56, 3077-3082 (October 1997). 2

230. D. W. Leung, M. A. Nielsen, I. L. Chuang, and Y. Yamamoto, “Approximate QuantumError Correction can Lead to Better Codes,” Phys. Rev. A 56, 2567-2573 (October1997). 6

231. R. Huang, H. Cao, and Y. Yamamoto, “Measurement of the Intensity and Phase ofMicrocavity Exciton-Polariton Emission in the Linear and Nonlinear Regimes,” Phys.Rev. B 56, 9217-9220 (October 1997). 5

232. Y. Yamamoto, “A Photon in Solitary Confinement,” Nature 390, 17-18 (November1997). 6

233. S. Inoue, S. Lathi, and Y. Yamamoto, “Longitudinal-mode-partition Noise and Ampli-tude Squeezing in Semiconductor Lasers,” J. Opt. Soc. Am. B 14, 2761-2766 (Novem-ber 1997). 16

234. S. Inoue and Y. Yamamoto, “Gravitational Wave Detection using Dual Input MichelsonInterferometer,” Phys. Lett. A 236, 183-187 (December 1997). 3

235. Y. Yamamoto, R. C. Liu, J. Kim, and A. Imamoglu, “Electron and Photon NoiseSuppression in Mesoscopic Systems— How to Teach Noisy Photons to Follow QuietElectrons,” Material Science and Engineering B 48, 19-25 (1997). 1

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236. G. S. Solomon, S. Komarov, J. S. Harris, Jr., and Y. Yamamoto, “Increased Size Uni-formity through Vertical Quantum Dot Columns,” J. Cryst. Growth 175/176, 707-712(1997). 39

237. J. Chen, S. Machida, and Y. Yamamoto, “Simultaneous Measurement of Amplitude andPhase in Surface SHG,” in Proceedings of 20th Meeting on Lightwave Sensing Technol-ogy, (Japan Society of Lightwave Sensing Technology, Japan Society of Applied Physics,1997), LST 20-11, pp. 77-83.

238. Y. Yamamoto, R. C. Liu, J. Kim, and A. Imamoglu, “Quantum Noise Suppressionin Macroscopic Conductors and p-n Junctions,” in Research Trends in Non-linear andQuantum Optics, ed. V. Stefan (American Institute of Physics, New York, 1997).

239. Y. Yamamoto, “Quantum Optics,” in Proceedings of the NATO Advanced Study Insti-tute on Mesoscopic Electron Transport, eds. G. Schon and L. Kouwenhoven (KluwerAcademic Publishers, Dordrecht, The Netherlands, 1997).

240. S. Jiang, S. Machida, Y. Takiguchi, H. Cao, and Y. Yamamoto “Wide Band AC Bal-anced Homodyne Detection of Weak Coherent Pulses,” Opt. Commun. 145, 91-94(January 1998). 8

241. R. C. Liu, B. Odom, Y. Yamamoto, and S. Tarucha, “Quantum Interference in ElectronCollision,” Nature 391, 263-265 (January 1998). 69

242. F. Ho and Y. Yamamoto, “Analysis and Optimization of Force Sensitivity in AtomicForce Microscopy using Optical and Electrical Detection,” J. Vac. Sci. Technol. B 16,43-50 (January/February 1998). 1

243. A. Dana and Y. Yamamoto, “Mechanical Parametric Amplification in PiezoresistiveGallium Arsenide Microcantilevers,” Appl. Phys. Lett. 72, 1152-1154 (March 1998). 6

244. J. Chen, S. Machida, and Y. Yamamoto, “Simultaneous Measurement of Amplitude andPhase in Surface Second-Harmonic Generation,” Opt. Lett. 23, 676-678 (May 1998).12

245. O. Alter and Y. Yamamoto, “Impossibility of Determining the Unknown QuantumWavefunction of a Single System: Quantum Non-Demolition Measurements, Measure-ments without Entanglement and Adiabatic Measurements,” Fortschritte der Physik46, pp. 817-827 (June 1998). 2

246. Y. Yamamoto, R. C. Liu, B. Odom, and S. Tarucha, “Quantum Interference in ElectronCollision,” Butsuri 53, 604-607 (August 1998 [in Japanese]).

247. Y. Yamamoto, “My Experience with Quantum Optics,” Oyo Buturi 67, 915-916 (Au-gust 1998 [in Japanese]).

248. Y. Yamamoto, S. Inoue, H. Heitmann, G. Bjork, and F. M. Matinaga, “QuantumOptics Effects in Semiconductor Lasers,” in Semiconductor Lasers I; Fundamental, ed.E. Kapon (Academic Press, September 1998), pp. 361-441.

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249. S. E. Harris and Y. Yamamoto, “Photon Switching by Quantum Interference,” Phys.Rev. Lett. 81, 3611-3614 (October 1998). 194

250. S. Kasapi, S. Lathi, and Y. Yamamoto, “Sub-Shot-Noise FM Noise Spectroscopy ofTrapped Rubidium Atoms,” J. Opt. Soc. Am. B 15, 2626-2630 (October 1998). 2

251. S. Jiang, S. Machida, Y. Takiguchi, Y. Yamamoto, and H. Cao, “Direct Time-domainObservation of Transition from Strong to Weak Coupling in a Semiconductor Micro-cavity,” Appl. Phys. Lett. 73 (21), 3031-3033 (November 1998). 3

252. Y. Yamamoto, “Quantum Optics and Mesoscopic Physics,” Proceedings of the Interna-tional Symposium on Quantum Optics and Mesoscopic Physics (November 1998).

253. F. Yamaguchi, D. H. Huang, and Y. Yamamoto, “Conductance through a One-AtomPoint Contact,” in Superlattice and Microstructures 23, 737-746 (1998) 3

254. Y. Yamamoto, “Generation of Squeezed Light from Semiconductor Lasers and Its Ap-plication to Precision Measurements,” Physica Scripta T76, 103-109 (1998). 1

255. R. C. Liu, Y. Yamamoto, and S. Tarucha, “Signs of Quantum Statistical Effects inElectron Collision,” Physica B 249-251, 152-156 (1998). 0

256. D. H. Huang and Y. Yamamoto, “Scanning Tunneling Microscopy on Individual AtomManipulation,” in Scanning Microscopy, 12 (1998).

257. D. H. Huang, F. Yamaguchi, and Y. Yamamoto, “In situ STM Nanotip Fabrication withField Enhanced Surface Diffusion, Thermal Evaporation and Field Emission,” Jpn. J.Appl. Phys. 37, 3824-3827 (1998). 4

258. F. Yamaguchi, D. Huang, and Y. Yamamoto, “Coulomb Blockade Oscillation in a SingleAtomic Junction,” Semicond. Sci. Technol. 13, A124-A126 (1998). 1

259. S. Lathi and Y. Yamamoto, “Influence of Nonlinear Gain and Loss on the IntensityNoise of a Multimode Semiconductor Laser,” Phys. Rev. A 59, 819-825 (January1999). 18

260. F. Yamaguchi and Y. Yamamoto, “Crystal Lattice Quantum Computer,” Appl. Phys.A 68, 1-8 (January 1999). 46

261. J. Kim, S. Takeuchi, Y. Yamamoto, and H. H. Hogue, “Multiphoton Detection usingVisible Light Photon Counter,” Appl. Phys. Lett. 74, 902-904 (February 1999). 94

262. S. Takeuchi, J. Kim, Y. Yamamoto, and H. H. Hogue, “Development of a High-Quantum-Efficiency Single-Photon Counting System,” Appl. Phys. Lett. 74, 1063-1065(February 1999). 83

263. J. Kim, O. Benson, H. Kan, and Y. Yamamoto, “A Single-Photon Turnstile Device,”Nature 397, 500-503 (February 1999). 180

264. S. Lathi, K. Tanaka, T. Morita, S. Inoue, H. Kan, and Y. Yamamoto, “Transverse Junc-tion Stripe GaAs/AlGaAs Lasers for Squeezed Light Generation,” IEEE J. QuantumElectron. QE-35, 387-394 (March 1999). 13

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265. M. Pelton and Y. Yamamoto, “Ultralow Threshold Laser using a Single Quantum Dotand a Microsphere Cavity,” Phys. Rev. A 59, 2418-2421 (March 1999). 48

266. F. Tassone and Y. Yamamoto, “Exciton-exciton Scattering Dynamics in a Semicon-ductor Microcavity and Stimulated Scattering into Polaritons,” Phys. Rev. B 59,10830-10842 (April 1999). 107

267. W. D. Oliver, J. Kim, R. C. Liu, and Y. Yamamoto, “Hanbury Brown and Twiss-typeExperiment with Electrons,” Science 284, 299-301 (April 1999). 86

268. O. Benson and Y. Yamamoto, “Master Equation Model of a Single Quantum-dot Mi-crosphere laser,” Phys. Rev. A 59, 4756-4763 (June 1999). 19

269. F. Yamaguchi and Y. Yamamoto, “Crystal Lattice Quantum Computer,” Microelec-tronic Engineering 47, 273-275 (June 1999). 5

270. Y. Yamamoto, “The Many Wavelengths of Light,” Physics World, 22-23 (August 1999).0

271. H. Ezaki, E. Hanamura, and Y. Yamamoto, “Generation of Phase States by Two-PhotonAbsorption,” Phys. Rev. Lett. 83, 3558-3561 (October 1999). 6

272. O. Alter and Y. Yamamoto, “Fundamental Quantum Limit to External Force Detectionvia Monitoring a Single Harmonic Oscillator or Free Mass,” Phys. Lett. A 263, 226-231(December 1999). 2

273. Y. Yamamoto, J. Kim, O. Benson, and H. Kan, “Single Photon Turnstile Device,”Butsuri 54, 975-978 (December 1999 [in Japanese]).

274. S. Jiang, S. Machida, Y. Takiguchi, Y. Yamamoto, and H. Cao, “Direct Time Do-main Observation of Exciton-Polariton Oscillation in a Semiconductor Microcavity,” inSpecial Issue of Superlattices and Microstructures, ed. W. Potz (The Academic Press,1999), pp. 73-82.

275. D. H. Huang and Y. Yamamoto, “Atomic Manipulation of Hydrogen on Hydrogen-Terminated Silicon Surface with Scanning Tunneling Microscope,” in Atomic ForceMicroscopy/Scanning Tunneling Microscopy III (AFM/STM III), eds. S. H. Cohenand M. L. Lightbody (Kluwer Academic/Plenum Publishers, 1999), pp. 49-64.

276. Y. Yamamoto, “Manipulation of Quantum Statistics in Mesoscopic Experiments,” inQuantum Coherence and Decoherence, eds. Y. A. Ono and K. Fujikawa (North-Holland,Amsterdam, 1999), pp. 83-90.

277. F. Yamaguchi, D. H. Huang, Y. Zhang, K. Cho, Y. Yamamoto, “Coulomb BlockadeOscillation in Single Atom Nanotips,” in Quantum Coherence and Decoherence, eds.Y. A. Ono and K. Fujikawa (North-Holland, Amsterdam, 1999), pp. 253-256.

278. G. S. Solomon, M. Pelton, and Y. Yamamoto, “Spontaneous Emission Control of SingleQuantum Dots,” Inst. Phys. Conf. Ser. No. 166: Chapter 4, 269-272 (January 2000).0

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279. S. Kasapi, S. Lathi, and Y. Yamamoto, “Sub-Shot-Noise Frequency-Modulation Spec-troscopy by use of Amplitude-Squeezed Light from Semiconductor Lasers,” J. Opt. Soc.Am. B17, 275-279 (February 2000). 5

280. X. Maitre, W. D. Oliver, and Y. Yamamoto, “Entanglement in 2DEG Systems: Towardsa Detection Loophole-free Test of Bell’s Inequality,” Physica E 6, 301-305 (February2000). 12

281. O. Benson, C. Santori, M. Pelton, and Y. Yamamoto, “Regulated and Entangled Pho-tons from a Single Quantum Dot,” Phys. Rev. Lett. 84, 2513-2516 (March 2000).117

282. R. Huang, F. Tassone, and Y. Yamamoto, “Experimented Evidence of Stimulated Scat-tering of Excitons into Microcavity Polaritons,” Phys. Rev. B 61, R7854-R7857 (March2000). 51

283. G. Klimovitch, F. Tassone, Y. Yamamoto, and H. Cao, “Stimulated Resonant Tunnelinginto Quantum Well Excitons,” Phys. Lett. A 267, 281-286 (March 2000). 1

284. Y. Yamamoto, R. Liu, W. D. Oliver, J. Kim, and X. Maitre, “Quantum Indistinguisha-bility in Two-Dimensional Electron Gas Systems,” in Proceedings of 5th InternationalSymposium on Advanced Physical Fields, pp. 417-426 (March 2000).

285. D. W. Leung, I. L. Chuang, F. Yamaguchi, and Y. Yamamoto, “Efficient Implementa-tion of Coupled Logic Gates for Quantum Computation,” Phys. Rev. A 61, 042310-1- 042310-7 (April 2000). 43

286. Y. Yamamoto, “Half-matter, half-light amplifier,” Nature 405, 629-630 (June 2000). 24

287. Y. Yamamoto, J. Kim, O. Benson, and H. Kan, “Single Photon Turnstile Device,”Optonews No. 4, 35-38 (July 2000 [in Japanese]).

288. S. Nuttinck, K. Hashimoto, S. Miyashita, T. Saku, Y. Yamamoto, and Y. Hirayama,“Quantum Point Contacts in a Density-Tunable Two-Dimensional Electron Gas,” Jpn.J. Appl. Phys. 39, L655-L657 (July 2000). 15

289. J. R. Goldman, T. D. Ladd, F. Yamaguchi, and Y. Yamamoto, “Magnet Design for aCrystal-Lattice Quantum Computer,” Appl. Phys. A 71, 11-17 (July 2000). 16

290. T. D. Ladd, J. R. Goldman, F. Yamaguchi, and Y. Yamamoto, “Decoherence in CrystalLattice Quantum Computation,” Appl. Phys. A 71, 27-36 (July 2000). 6

291. H. Ezaki, E. Hanamura, and Y. Yamamoto, Reply to comment on “Generation of PhaseStates by Two-Photon Absorption,” Phys. Rev. Lett. 85, 1136-1137 (July 2000). 1

292. Y. Yamamoto, “Manipulated Single Photon Generation in Nano-structures,” KOGAKU29, 728-733 (December 2000 [in Japanese]).

293. F. Tassone and Y. Yamamoto, “Lasing and Squeezing of Exciton-Polaritons in a PostSemiconductor Microcavity,” Phys. Rev. A 62, 063809-1 - 063809-14 (December 2000).12

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294. W. D. Oliver, R. C. Riu, J. Kim, X. Maitre, L. Di Carlo, and Y. Yamamoto, “QuantumElectron Optics and its Applications,” in Proceedings of the NATO Advanced StudyInstitute on Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelec-tronics, eds. I. O. Kulik and R. Ellialtioglu (Kluwer Academic Publishers, Dordrecht,2000), 559, pp. 457-466.

295. Y. Yamamoto, “Single Photon Turnstile Device,” in Quantum Optics of Small Struc-tures, eds. D. Lenstra, et al. (Royal Netherlands Academy of Arts and Science, Ams-terdam, 2000), pp. 111-121.

296. G. S. Solomon, M. Pelton, and Y. Yamamoto, “Modification of Spontaneous Emissionof a Single Quantum Dot,” Phys. Stat. Sol. (a) 178, 341-344 (2000). 3

297. C. Santori, M. Pelton, G. S. Solomon, Y. Dale, and Y. Yamamoto, “Triggered SinglePhotons from a Quantum Dot,” Phys. Rev. Lett. 86, 1502-1505 (February 2001). 266

298. J. Chen, S. Machida, and Y. Yamamoto, “Homodyne Detection of Surface Second-Harmonic Generation,” KOGAKU 30, 123-128 (February 2001 [in Japanese]).

299. Y. Yamamoto, “Quantum Information,” NTT R& D 50, 212-215 (March 2001) [inJapanese].

300. G. S. Solomon, M. Pelton, and Y. Yamamoto, “Single-Mode Spontaneous Emissionfrom a Single Quantum Dot in a Three-Dimensional Microcavity,” Phys. Rev. Lett.86, 3903-3906 (April 2001). 126

301. Y. Yamamoto and F. Yamaguchi, “Quantum Computing,” in Proceedings of the 25thInternational Conference on the Physics of Semiconductors (ICPS25, 2000), (Springer,Berlin, 2001), pp. 20-23.

302. Y. Yamamoto, T. D.Ladd, J. R. Goldman, and F. Yamaguchi, “Crystal Lattice Quan-tum Computation,” Proceedings of the 1st International Conference on ExperimentalImplementation of Quantum Computation (IQC 01), ed. R. G. Clark (Rinton Press,Princeton, New Jersey, 2001), pp. 7-15.

303. T. D. Ladd, Y. Yamamoto, J. R. Goldman, and F. Yamaguchi, “Solid-State CrystalLattice NMR Quantum Computation,” Quantum Information and Computation 1, 56-81 (2001).

304. W. D. Oliver, F. Yamaguchi, and Y. Yamamoto, “Electron Entanglement via a Quan-tum Dot,” Phys. Rev. Lett. 88, 037901-1 - 037901-4 (January 2002). 45

305. M. Pelton, J. Vuckovic, G. S. Solomon, A. Scherer, and Y. Yamamoto, “Three-DimensionallyConfined Modes in Micropost Microcavities: Quality Factors and Purcell Factors,”IEEE J. Quantum Electron. 38, 170-177 (February 2002). 16

306. M. Pelton, C. Santori, G. S. Solomon, O. Benson, and Y. Yamamoto, “Triggered SinglePhotons and Entangled Photons from a Quantum Dot Microcavity,” Eur. Phys. J. D18, 179-190 (February 2002). 7

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307. C. Santori, G. S. Solomon, M. Pelton, and Y. Yamamoto, “Time-Resolved Spectroscopyof Multiexcitonic Decay in an InAs Quantum Dot,” Phys. Rev. B 65, 073310-1 - 073310-4 (February 2002). 21

308. R. Huang, Y. Yamamoto, R. Andre, J. Bleuse, M. Muller, and H. Ulmer-Tuffigo,“Exciton-Polariton Lasing and Amplification based on Exciton-Exciton Scattering inCdTe Microcavity Quantum Wells,” Phys. Rev. B 65, 165314-1 - 165314-7 (April 2002).21

309. E. Waks, A. Zeevi, and Y. Yamamoto, “Security of Quantum Key Distribution withEntangled Photons Against Individual Attacks,” Phys. Rev. A 65, 052310-1 - 052310-16 (May 2002). 26

310. T. D. Ladd, J. R. Goldman, F. Yamaguchi, Y. Yamamoto, E. Abe, and K. M. Itoh, “AllSilicon Quantum Computer,” Phys. Rev. Lett. 89, 017901-1 - 017901-4 (July 2002).55

311. K. Inoue, E. Waks, and Y. Yamamoto, “Differential Phase Shift Quantum Key Distri-bution,” Phys. Rev. Lett. 89, 037902-1 - 037902-3 (July 2002). 20

312. C. Santori, D. Fattal, M. Pelton, G. S. Solomon, and Y. Yamamoto, “Polarization-Correlated Photon Pairs from a Single Quantum Dot,” Phys. Rev. B 66, 045308-1 -045308-4 (July 2002). 58

313. F. Yamaguchi, P. Milman, M. Brune, J. M. Raimond, and S. Haroche, “QuantumSearch with Two-Atom Collisions in Cavity QED,” Phys. Rev. A 66, 010302(R)-1 -010302(R)-4 (July 2002). 13

314. J. Vuckovic, M. Pelton, A. Scherer, and Y. Yamamoto, “Optimization of Three-DimensionalMicropost Microcavities for Cavity Quantum Electrodynamics,” Phys. Rev. A 66,023808-1 - 023808-9 (August 2002). 26

315. H. Deng, G. Weihs, C. Santori, J. Bloch, and Y. Yamamoto, “Condensation of Semi-conductor Microcavity Exciton Polaritons,” Science 298, 199-202 (October 2002). 63

316. C. Santori, D. Fattal, J. Vuckovic, G. S. Solomon, and Y. Yamamoto, “IndistinguishablePhotons from a Single-Photon Device,” Nature 419, 594-597 (October 2002). 179

317. E. Waks, C. Santori, and Y. Yamamoto, “Security Aspects of Quantum Key Distribu-tion with Sub-Poisson Light,” Phys. Rev. A 66, 042315-1 - 042315-7 (October 2002).7

318. G. Feve, W. D. Oliver, M. Aranzana, and Y. Yamamoto, “Rashba Effect within theCoherent Scattering Formalism,” Phys. Rev. B 66, 155328-1 - 155328-14 (October2002). 15

319. Y. Yamamoto and O. Alter, “Fundamental Limit in Quantum Measurements and Quan-tum Zeno Effect,” Suuri Kagaku 473, 35-41 (November 2002 [in Japanese]).

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320. M. Pelton C. Santori, J. Vuckovic, B. Y. Zhang, G. S. Solomon, J. Plant, and Y. Ya-mamoto, “Efficient Source of Single Photons: A Single Quantum Dot in a MicropostMicrocavity,” Phys. Rev. Lett. 89, 233602-1 - 233602-4 (December 2002). 105

321. E. Waks, K. Inoue, C. Santori, D. Fattal, J. Vuckovic, G. S. Solomon, and Y. Yamamoto,“Quantum Cryptography with a Photon Turnstile,” Nature 420, 762 (December 2002).44

322. J. Vuckovic, C. Santori, D. Fattal, M. Pelton, G. S. Solomon, B. Y. Zhang, J. Plant,and Y. Yamamoto, “Single Photons and Entangled Photons from a Quantum Dot,”Technical Digest of the IEEE International Electron Devices Meeting (IEDM), pp. 87-90, San Francisco, CA (December 2002).

323. Y. Yamamoto, M. Pelton, C. Santori, G. S. Solomon, O. Benson, J. Vuckovic, andA. Scherer, “Regulated Single Photons and Entangled Photons from a Quantum DotMicrocavity,” in Nanoscience and Technology: Semiconductor Spintronics and QuantumComputation, eds. D. D. Awschalom, D. Loss, and N. Samarth (Springer-Verlag, Berlin,2002) pp. 277-305.

324. Y. Yamamoto, M. Pelton, C. Santori, and G. S. Solomon, “Generation of Single Pho-tons and Entangled Photon Pairs from a Quantum Dot,” in Proceedings of the 7thInternational Symposim on Foundations of Quantum Mechanics in the Light of NewTechnology (ISQM-TOKYO ’01), eds. Y. A. Ono and K. Fujikawa (World Scientific,2002), pp. 91-97.

325. Y. Yamamoto, T. D. Ladd, J. R. Goldman, and F. Yamaguchi, “Solid-State CrystalLattice NMR Quantum Computation,” in Proceedings of the International School ofPhysics ”Enrico Fermi” Course CXLVIII, eds. F. De Martini and C. Monroe (IOSPress, Amsterdam, 2002), pp. 441-474.

326. Y. Yamamoto, R. Huang, H. Deng, F. Tassone, J. Bleuse, H. Ulmer, and R. Andre,“Experimental Evidence of Bosonic Statistics and Dynamic BEC of Exciton Polaritonsin GaAs and CdTe Quantum Well Microcavities,” in Proceedings of the XV InternationalConference on Laser Spectroscopy (ICOLS-XV), eds. S. Chu, et al. (World ScientificPublishing Co. Pte. Ltd., Singapore, 2002), pp. 237-247.

327. J. R. Goldman, T. D. Ladd, F. Yamaguchi, and Y. Yamamoto, “Quantum Compu-tation in a One-Dimensional Crystal Lattice with Nuclear Magnetic Resonance ForceMicroscopy,” in Proceedings of the XV International Conference on Laser Spectroscopy(ICOLS-XV), eds. S. Chu, et al. (World Scientific Publishing Co. Pte. Ltd., Singapore,2002), pp. 333-336.

328. C. Santori, M. Pelton, G. S. Solomon, Y. Dale, and Y. Yamamoto, “Triggered SinglePhotons from a Quantum Dot,” in Proceedings of the XV International Conference onLaser Spectroscopy (ICOLS-XV), eds. S. Chu, et al. (World Scientific Publishing Co.Pte. Ltd., Singapore, 2002), pp. 353-356.

329. Y. Yamamoto, “Single Photons for Quantum Information Systems,” Oyo Buturi 72,146-156 (February 2003 [in Japanese]).

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330. C. P. Master, F. Yamaguchi, and Y. Yamamoto, “Efficiency of Free-Energy Calculationsof Spin Lattices by Spectral Quantum Algorithms,” Phys. Rev. A 67, 032311-1 -032311-9 (March 2003). 1

331. J. Vuckovic, and Y. Yamamoto “Photonic Crystal Microcavities for Cavity QED witha Single Quantum Dot,” Appl. Phys Lett. 82, 2374-2376 (April 2003). 41

332. W. D. Oliver, G. Feve, N. Y. Kim, F. Yamaguchi, and Y. Yamamoto, “The Generationand Detection of Single and Entangled Electrons in Mesoscopic 2DEG Systems,” inProceedings of the NATO Advanced Research Workshop on Quantum Noise in Meso-scopic Physics, ed. Yuli V. Nazarov (Kluwer Academic Publishers, Dordrecht, 2003),97, pp. 275-296.

333. J. Vuckovic, D. Fattal, C. Santori, G. S. Solomon, and Y. Yamamoto, “Enhanced Single-Photon Emission from a Quantum Dot in a Micropost Microcavity,” Appl. Phys. Lett.82, 3596-3598 (May 2003).

334. K. Inoue, C. Santori, E. Waks, and Y. Yamamoto, “Entanglement Based QuantumKey Distribution without an Entangled-Photon Source,” Phys. Rev. A 67, 062319-1 -062319-4 (June 2003). 3

335. K. Inoue, E. Waks, and Y. Yamamoto, “Differential-Phase-Shift Quantum Key Distri-bution using Coherent Light,” Phys. Rev. A 68, 022317-1 - 023317-4 (August 2003).8

336. A. S. Verhulst, D. Maryenko, Y. Yamamoto, and K. M. Itoh, “Double and Single Peaksin Nuclear Magnetic Resonance Spectra of Natural and 29Si Enriched Single CrystalSilicon,” Phys. Rev. B 68, 054105-1 - 054105-6 (August 2003). 5

337. W. D. Oliver, G. Feve, and Y. Yamamoto, “The Rashba Effect within the CoherentScattering Formalism with Applications to Electron Quantum Optics,” Journal of Su-perconductivity: Incorporating Novel Magnetism 16, 719-733 (August 2003). 1

338. G. Weihs, H. Deng, R. Huang, M. Sugita, F. Tassone, and Y. Yamamoto, “Exciton-Polariton Lasing in a Microcavity,” Semicond. Sci. Technol. 18, S386-S394 (September2003). 8

339. Y. Yamamoto and K. Inoue, “Noise in Amplifiers,” Invited Tutorial Paper for IEEE/OSAJournal of Lightwave Technology 21, 2895-2915 (November 2003). 6

340. E. Waks, K. Inoue, W. D. Oliver, E. Diamanti, and Y. Yamamoto, “High EfficiencyPhoton-Number Detection for Quantum Information Processing,” IEEE Journal of Se-lected Topics in Quantum Electronics 9, 1502 - 1511 (November/December 2003) [In-vited Paper] . 10

341. H. Deng, G. Weihs, D. Snoke, J. Bloch, and, Y. Yamamoto, “Polariton Lasing vs.Photon Lasing in a Semiconductor Microcavity,” PNAS 100, 15318-15323 (December2003). 14

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342. D. Fattal, K. Inoue, J. Vuckovic, C. Santori, G. S. Solomon, and Y. Yamamoto, “En-tanglement Formation and Violation of Bell’s Inequality with a Semiconductor SinglePhoton Source,” Phys. Rev. Lett. 92, 037903-1 - 037903-4 (January 2004). 25

343. D. Fattal, E. Diamanti, K. Inoue, and Y. Yamamoto, “Quantum Teleportation witha Quantum Dot Single Photon Source,” Phys. Rev. Lett. 92, 037904-1 - 037904-4(January 2004). 25

344. E. Waks, E. Diamanti, B. C. Sanders, S. D. Bartlett, and Y. Yamamoto, “Direct Obser-vation of Nonclassical Photon Statistics in Parametric Down-Conversion,” Phys. Rev.Lett. 92, 113602-1 - 113602-4 (March 2004). 13

345. K. C. Fu, T. D. Ladd, C. Santori, and Y. Yamamoto, “Optical Detection of the SpinState of a Single Nucleus in Silicon,” Phys. Rev. B. 69, 125306-1 - 125306-5 (March2004). 3

346. G. Weihs, H. Deng, D. Snoke, and Y. Yamamoto, “Polariton Lasing in a Microcavity,”Physica Status Solidi 201, Issue 4, 625-632 (March 2004). 4

347. C. Santori, D. Fattal, J. Vuckovic, G. S. Solomon, E. Waks, and Y. Yamamoto, “Sub-Microsecond Correlations in Photoluminescence from InAs Quantum Dots,” Phys. Rev.B 69, 205324 (May 2004). 11

348. C. Santori, D. Fattal, J. Vuckovic, G.S. Solomon and Y. Yamamoto, “Generation ofsingle photons and correlated photon pairs using InAs quantum dots,” Fortschritte derPhysik 52, 1180-1188 (November 2004). 0

349. T. Ladd, D. Maryenko, Y. Yamamoto, E. Abe, and K.M. Itoh, “Coherence time ofdecoupled nuclear spins in silicon,” Phys. Rev. B 71, 014401 (January 2005). 11

350. A. Dana and Y. Yamamoto, “Electrostatic force spectroscopy of near surface localizedstates,” Institute of Physics Publishing, Nanotechnology 16, S125-133 (February 2005).1

351. Y. Yamamoto, “Quantum information,” Science Journal Kagaku 75, 313-315 (March2005).

352. B. Zhang, G.S. Solomon, M. Pelton, J. Plant, C. Santori, J. Vukovic, and Y. Yamamoto,“Fabrication of InAs Quantum Dots in AlAs/GaAs DBR Pillar Microcavities for SinglePhoton Sources,” Journal of Applied Physics 97, 073507 (March 2005). 3

353. Y. Yamamoto, C. Santori, G. Solomon, J. Vuckovic, D. Fattal, E. Waks, and E. Dia-manti, “Single photons for quantum information systems,” Progress in Informatics 1,5-37 (April 2005).

354. A. Verhulst, Y. Yamamoto, and K. Ito, “Optical Pumping of 29Si Nuclear Spins in BulkSilicon at High Magnetic Field and Liquid Helium Temperature,” Phys. Rev. B 71,235206 (June 2005). 0

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355. B. Zhang, G.S. Solomon, M. Pelton, and Y. Yamamoto, “Epitaxial growth and opticalcharacterization of triggered single photon materials,” Recent Research Developmentsin Crystal Growth 4, 187-210 (June 2005).

356. C. Langrock, E. Diamanti, R. Roussev, H. Takesue, Y. Yamamoto, M.M. Fejer, “Highlyefficient single-photon detection at communication wavelengths by use of upconversionin reverse-proton-exchanged periodically poled LiNbO3 waveguides,” Optics Letters 30,1725 (July 2005). 7

357. C. Santori, Y. Yamamoto, S. Gotzinger, S. Kako, K. Hoshino, and Y. Arakawa,“Photon Correlation Studies of Single GaN Quantum Dots,” Applied Physics Letters87, 051916 (July 2005). 8

358. D. Englund, D. Fattal, E. Waks, G. Solomon, B. Zhang, T. Nakaoka, Y. Arakawa, Y. Ya-mamoto, J. Vukovic, “Controlling the Spontaneous Emission Rate of Single QuantumDots in a Two-Dimensional Photonic Crystal, Phys. Rev. Lett. 95, 013904 (July 2005)27

359. Y. Yamamoto, “Single photons and entangled photon-pairs from a quantum dot,” Op-tronics 9, 134-144 (September 2005) (Japanese Journal)

360. K.C. Fu, C. Santori, C. Stanley, M.C. Holland, Y. Yamamoto, “Coherent PopulationTrapping of Electron Spins in a High-Purity n-Type GaAs Semiconductor,” Phys. Rev.Lett. 95, 187405 (October 2005) 1

361. E. Diamanti, H. Takesue, T. Honjo, K. Inoue, Y. Yamamoto, “Performance of variousquantum key distribution systems using 1.55 um up-conversion single-photon detec-tors,” Phys. Rev. A 72, 052311 (November 2005) 2

362. H. Takesue, E. Diamanti, T. Honjo, C. Langrock, M.M. Fejer, K. Inoue, Y. Yamamoto,“Differential phase shift quantum key distribution experiment over 105-km fibre,” NewJournal of Physics 7, 232 (November 2005) 3

363. Y. Yamamoto, “Quantum Physics II, Interdisciplinary Fields between Physics and En-gineering,” The Journal of The Physical Society of Japan 60, 928-934 (December 2005)

364. E. Waks, E. Diamanti, and Y. Yamamoto, “Generation of Photon Number States,”New Journal of Physics 8, 4 (January 2006) 0

365. E. Waks, H. Takesue, and Y. Yamamoto, “Security of differential-phase-shift quantumkey distribution against individual attacks,” Phys. Rev. A 73, 012344 (January 2006)0

366. T. Byrnes and Y. Yamamoto, “Simulating lattice gauge theories on a quantum com-puter,” Phys. Rev. A 73, 022328 (February 2006) 0

367. E. Diamanti, C. Langrock, H. Takesue, M. M. Fejer, Y. Yamamoto, “1.5 µ m opticaltime-domain reflectometry with a single-photon detector using up-conversion in a PPLNwaveguide,” Optics Letter 31, 727 (March 2006) 0

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368. E. Waks, B.C. Sanders, E. Diamanti, and Y. Yamamoto, “Highly nonclassical photonstatistics in parametric down-conversion,” Phys. Rev. A 73, 033814 (March 2006). 0

369. Y. Yamamoto, “Quantum information system experiments using a single photon source,”Proceedings of ISQM Tokyo 2005 16 (March 2006). 0

370. P. van Loock, T.D. Ladd, K. Sanaka, F. Yamaguchi, K. Nemoto, W.J. Munro, andY. Yamamoto, “Hybrid Quantum Repeater Using Bright Coherent Light,” Phys. Rev.Lett. 96, 240501 (June 2006). 0

371. H. Deng, D. Press, S. Goetzinger, G.S. Solomon, R. Hey, K.H. Ploog , and Y. Ya-mamoto, “Quantum Degenerate Exciton-Polaritons in Thermal Equilibrium,” Phys.Rev. Lett. 97, 146402 (June 2006). 0

372. Y.C.N. Na and Y. Yamamoto, “Time-domain simulation of Schrodinger equation todetermine the effective potential induced by an oscillating standing wave,” J. Appl.Phys. 100, 044901 (August 2006). 0

373. Y.C.N. Na and Y. Yamamoto, “Solid state ion trap: lateral trapping of quantum wellexcitons by oscillating piezoelectric field,” Solid State Comm. 140, 28 (August 2006).0

374. T. D. Ladd, P. van Loock, K. Nemoto, W.J. Munro and Y. Yamamoto, “Hybrid Quan-tum Repeater Based on Dispersive CQED Interactions between Matter Qubits andBright Coherent Light,” New Journal of Physic 8, 184 (September 2006). 0

375. K.C. Fu, W. Yeo, S. Clark, C. Santori, C. Stanley, M.C. Holland, and Y. Yamamoto, “Millisecond spin-flip times of donor-bound electrons in GaAs,” Phys. Rev. B 74,121304 (September 2006). 0

376. H. Takesue, E. Diamanti, C. Langrock, M.M. Fejer, and Y. Yamamoto, “10-Ghz clockdifferential phase shift quantum key distribution experiment,” Optics Express 14, 9522(October 2006). 0

377. Y. Yamamoto, “Quantum communication and information processing with quantumdots,” Quantum Information Processing, Springer 5, 299 (October 2006) 0

378. Y. Yamamoto, “Optical Quantum Information Science,” Kagaku 76, 1037 (October2006) [in Japanese]. 0

379. Y. Yamamoto, “Quantum information technology: present and future prospects,” OyoButsuri 75, 1307 (November 2006) [in Japanese]. 0

380. S. Kako, C. Santori, K. Hoshino, S. Goetzinger, Y. Yamamoto and Y. Arakawa, “A gal-lium nitride single-photon source operating at 200 K,” Nature Materials 5, 887 (Novem-ber 2006). 0

381. E. Diamanti, H. Takesue, C. Langrock, M.M. Fejer, and Y. Yamamoto, “100 km dif-ferential phase shift quantum key distribution experiment with low jitter up-conversiondetectors,” Opt. Express 14, 13073 (December 2006). 0

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