第88章 本书涉及的部分参考文献

1. Donchin,E.(1981)."Surprise!...Surprise?".Electroencephalography and Clinical Neurophysiology, 52(4), 393-408.

2. Squires, N. K., Squires, K. C.,& Hillyard, S. A.(1975)."Two varieties of long-latency positive waves evoked by unpredictable auditory stimuli in man". Electroencephalography and Clinical Neurophysiology, 38(4), 387-401.

3. Goodin, D.S., Squires, K. C., Henderson, B. H.,& Starr, A.(1978)."P300 latency as an objective measure of cognitive dysfunction". Electroencephalography and Clinical Neurophysiology, 44(5), 631-639.

4. Polich, J.(1988)."P300 and stimulus probability". Psychophysiology, 25(2), 173-182.

5. Farwell, L. A.,& Donchin, E.(1988)."Talking off the top of your head: toward a mental prosthesis utilizing event-related brain potentials". Electroencephalography and Clinical Neurophysiology, 70(6), 510-523.

6. Liao, C. H., et al.(2025)."Cross-Subject P300 Classification viaβ-Label Smoothing Self-Distillation". Pattern Recognition, 159, 108247.）

7. Kunz, E. T., et al.(2025)."A brain-computer interface for decoding inner speech with privacy protection." Cell, 188(12), 2578-2592.

8. Yang, Y., et al.(2025)."Thalamic burst and tonic firing selectively indicate patients' consciousness level and recovery." The Innovation, 6(3), 100348.

9.菲利普・K・迪克.(1963).泰坦棋手.纽约：双日出版社.

10.匿名.(2025).意识提取. 360个人图书馆.[在线文献] https://www.360doc.cn/article/22010781_1158779707.html

11.原创力文档.(2025).脑科学意识解码伦理.[在线文献] https://m.book118.com/html/2025/0331/5111310034012124.shtm

12. Hall, S.(1973)."Encoding/decoding." Culture, Media, Language.伦敦：哈钦森出版社.

13. Crick, F.,& Koch, C.(1990)."Towards a neurobiological theory of consciousness." Seminars in the Neurosciences, 2(2), 263-275.）

14.《Biomimetics: Nature-Based Innovation》 by Yoseph Bar-Cohen.

15.《Bioinspiration& Biomimetics》(IOP Publishing)期刊中关于仿生移动、抓取等的研究论文。

16. Granqvist, C. G.(2006).《Electrochromic materials: Out of a niche》，Nature Materials, 5(2), 89–90.

17.《Electrochromic Materials and Devices》 by Roger J. Mortimer, David R. Rosseinsky, Paul M. S. Monk.

18.《Optical Camouflage Using Retro-Reflective Projection Technology》 by Susumu Tachi et al.(University of Tokyo, 2003)。

19.《Introduction to Thermoelectricity》 by H. Julian Goldsmid.

20.《Materials Today Physics》等期刊常有关于提高热电材料效率的研究。

21. Wang, W. H.(2012).《The elastic properties, elastic models and elastic perspectives of metallic glasses》，Progress in Materials Science, 57(3), 487–656.

22. Einstein, A.,& Rosen, N.(1935).《The Particle Problem in the General Theory of Relativity》，Physical Review, 48(1), 73–77.

23.《接触未来》，卡尔·萨根（小说中对于利用虫洞进行旅行的描述）

24. Thorne, K. S.(1994)，《Black Holes and Time Warps: Einstein's Outrageous Legacy》，W. W. Norton& Company.

25. Morris, M. S., Thorne, K. S.,& Yurtsever, U.(1988)，《Wormholes, Time Machines, and the Weak Energy Condition》，Physical Review Letters, 61(13), 1446–1449.

26. Visser, M.(1995).《Lorentzian Wormholes: From Einstein to Hawking》.，American Institute of Physics.

27. Kivelson, M. G.,& Russell, C. T.(1995).，《Introduction to Space Physics》.，Cambridge University Press.

28. Gonzalez, W. D., Joselyn, J. A., Kamide, Y., et al.(1994).，《What is a geomagnetic storm?》，Journal of Geophysical Research: Space Physics, 99(A4), 5771–5792.

29. Albertson, V. D.,& Van Baelen, J. A.(1970).，《Electric and magnetic fields at the earth's surface due to auroral currents》，IEEE Transactions on Power Apparatus and Systems, PAS-89(4), 578–584.

30. Ye, J. et al. 630, 600–605(2024). Frequency ratio of the 229mTh nuclear isomeric transition and the 87Sr atomic clock, Nature. 10.1038/s41586-024-02658-3

31. Kramer, S. et al.Nuclear Clocks: A New Frontier in Precision Metrology, Reviews of Modern Physics, 96, 10.1103/RevModPhys.96.025001, 025001(2024)

32. The 1989 Quebec Blackout: Impacts and Lessons Learned, North American Electric Reliability Corporation,(NERC), https://www.nerc.com/pa/ES-ISAC/Documents/1989%20Quebec%20Blackout.pdf

33.《量子力学100年重要文献合集》，收录沃尔夫冈·泡利、维尔纳·海森堡、埃尔温·薛定谔等人为量子力学奠定基础的论文。

34.《外祖母悖论——时间旅行》，讨论了时间旅行中的外祖母悖论（即祖父悖论）及其物理层面的解释，如平行宇宙理论。

35.《诺维科夫自洽性原则》，介绍前苏联理论物理学家伊戈尔·德米特里耶维奇·诺维科夫提出的有关时间悖论的规则。

36.《熵增-快懂百科》，解释熵增的定义、原理、应用领域等。

37.《熵与信息的守恒》，从经典热学和经典信息论的意义下讨论熵与信息间的守恒关系。

38.《神奇的杯子——以虹吸现象为例的物理教学模具设计》，介绍虹吸现象在物理教学模具设计中的应用。

39.《六足仿生机器人步态规划与控制系统设计》。

40.《声音定位仿生机器人针对持续声源心理声学修正的实验研究》。

41.《国际太空Space International국제태공》，提供国际空间活动的最新情况和有关信息资料，包括卫星发射市场、各类卫星及其应用的市场等。

42."Celebrating the First Century of Quantum Physics and Preparing for the Next One" by Dagmar Bruß(Editorial, Physical Review Letters)

43."Grandfather Paradox" by René Barjavel(Novel, Le Voyageur Imprudent, 1943)

44."Novikov Self-Consistency Principle" by Igor Dmitriyevich Novikov

45."Entropy and Information Conservation" by Various Authors(Journal Articles)

46."Siphon Phenomenon in Physics Teaching" by Various Authors(Journal Articles)，介绍虹吸现象在物理教学中的应用和实验设计。

47."Bionic Robot Design and Control" by Various Authors(Journal Articles and Conference Papers)，讨论仿生机器人的设计、步态规划、控制系统设计等方面。

48."Space International" by Beijing Space Science and Technology Information Institute(Journal)

49."Brain-Computer Interfaces: Current Trends and Future Directions" by Various Authors(Journal Articles and Conference Papers)，综述脑机接口技术的现状、挑战和未来发展趋势。

50."Cloud Computing: Principles, Technologies, and Applications" by Various Authors(Books and Journal Articles)

51.《量子力学原理》（The Principles of Quantum Mechanics），Paul Dirac，Oxford University Press(1930)

52.《量子力学：现代发展》（Quantum Mechanics: A Modern Development），Leslie E. Ballentine，World Scientific(2015)

53. Can Quantum-Mechanical Description of Physical Reality Be Considered Complete，A. Einstein, B. Podolsky, N. Rosen，Physical Review，47, 777–780(1935)，10.1103/PhysRev.47.777

54. On the Einstein-Podolsky-Rosen Paradox，J. S. Bell，Physics，1, 195–200(1964)，10.1103/PhysicsPhysiqueFizika.1.195

55. Quantum Immortality and the Many-Worlds Interpretation，Max Tegmark，Foundations of Physics，28, 255–275(1998)，10.1023/A:1018831518877

56. The Paradoxes of Time Travel，David Lewis，American Philosophical Quarterly，13, 145–152(1976)

57. The Novikov Self-Consistency Principle in Quantum Mechanics，Igor D. Novikov，Physical Review D，45, 1989–1997(1992)，10.1103/PhysRevD.45.1989

58. Wormholes, Time Machines, and the Weak Energy Condition，M. S. Morris, K. S. Thorne，American Journal of Physics，56, 395–412(1988)，10.1119/1.15414

59. Chronology Protection Conjecture，S. W. Hawking，Physical Review D，46, 603–611(1992)，10.1103/PhysRevD.46.603

60. Maxwell's Demon: Entropy, Information, Computing，Charles H. Bennett，Scientific American，257(5), 108–116(1987)

61. Information and Entropy in Statistical Mechanics，E. T. Jaynes，Physical Review，106, 620–630(1957)，10.1103/PhysRev.106.620

62. Black Holes and the Second Law，Jacob D. Bekenstein，Nature，248, 30–31(1974)，10.1038/248030a0

63. The Black Hole War: My Battle with Stephen Hawking to Make the World Safe for Quantum Mechanics，Leonard Susskind，Little, Brown and Company(2008)

64. The Physics of Siphons，H. J. S. Sandham，Physics Education，32, 333–337(1997)，10.1088/0031-9120/32/5/007

65. Siphon Design and Operation in Water Supply Systems，US Environmental Protection Agency(EPA)，2012，[EPA官网](https://www.epa.gov/water-research/siphon-design-and-operation-water-supply-systems)

66. Observation of Quantum Tunneling in Chemical Reactions，Robert Wild et al.，Nature， 563, 74–77(2018)，10.1038/s41586-018-0651-0

67. A Brain-Computer Interface for Relaying Cortical Control Signals to the Spinal Cord，

J. A. Hochberg et al.，Nature，519, 236–240(2015)，10.1038/nature14240

68. Global Brain-Computer Interface Market Report 2025，MarketsandMarkets，2025，[MarketsandMarkets官网](https://www.marketsandmarkets.com/Market-Reports/brain-computer-interface-market-197334004.html)

69. IEEE Standard for Ethically Aligned Design of Autonomous and Intelligent Systems(IEEE P7000™)，Institute of Electrical and Electronics Engineers(IEEE)，2019，[IEEE Xplore](https://standards.ieee.org/standard/7000-2019.html)

70. Ethics of Artificial Intelligence and Robotics: A European Approach，European Commission，2020，(https://digital-strategy.ec.europa.eu/en/library/ethics-artificial-intelligence-and-robotics-european-approach)

71. Blockchain-Based Digital Identity for the Metaverse，Y. Z. Huang et al.，IEEE Internet of Things Journal，9, 1–10(2022)，10.1109/JIOT.2022.3160207

72. Metaverse Architecture and Standards Whitepaper，Khronos Group，2022，[Khronos官网](https://www.khronos.org/metaverse)

73. Quantum-Enhanced Cloud Computing: Opportunities and Challenges，S. Lloyd et al.，Nature Reviews Physics，2, 463–475(2020)，10.1038/s42254-020-0218-1

74. Cloud Native Computing Foundation(CNCF) Annual Report 2025，CNCF，2025，[CNCF官网](https://www.cncf.io/reports/)

75. Fundamentals of Astrodynamics and Applications，David A. Vallado，Microcosm Press(2013)

76. Space Debris Mitigation Guidelines of the Committee on the Peaceful Uses of Outer Space，United Nations Office for Outer Space Affairs(UNOOSA)，2019，[UNOOSA官网](https://www.unoosa.org/documents/pdf/safety/spacedebris/Space_Debris_Guidelines.pdf)

77. Nuclear Clock-Based Navigation for Deep Space Missions，S. M. Kahn et al.，IEEE Transactions on Aerospace and Electronic Systems，58, 211–221(2022)，10.1109/TAES.2021.3077425

78. The Fabric of the Cosmos: Space, Time, and the Texture of Reality，Brian Greene，Alfred A. Knopf(2004)

79. Causality and Determinism in Modern Physics，John Earman，The British Journal for the Philosophy of Science，35, 45–61(1984)，10.1093/bjps/35.1.45

80. The Structure of Scientific Revolutions，Thomas S. Kuhn，University of Chicago Press(1962)

81.太阳活动：[NOAA Space Weather Prediction Center](https://www.swpc.noaa.gov/)

82.卫星轨道：[NASA JPL Small-Body Database](https://ssd.jpl.nasa.gov/)

83.量子计算：[IBM Quantum Experience](https://quantum-computing.ibm.com/)

84.开放获取平台

- arXiv：理论物理、计算机科学等领域预印本

- IEEE Xplore：电气工程与计算机科学文献库

- PhilPapers：哲学研究论文数据库