[1] CHATEL-GOLDMAN J, SCHWARTZ J C, JUTTEN C, et al. Non-local mind from the perspective of social cognition［J］. Frontiers in Human Neuroscience, 2013, 7: 17.

[2] HASSON U, GHAZANFAR, A A. GALANTUCCI B, et al. Brain-to-brain coupling: a mechanism for creating and sharing a social world［J］. Trends in Cognitive Sciences, 2012, 16(2): 114-121.

[3] SCHOLKMANN F, HOLPER L, WOLF U, et al. A new methodical approach in neuroscience: assessing inter-personal brain coupling using functional near-infrared imaging (fNIRI) hyperscanning［J］. Frontiers in Human Neuroscience, 2013, 7: 813.

[4] BERNHARDT B C, SINGER T. The neural basis of empathy［J］. Annual Review of Neuroscience, 2012, 35: 1-23.

[5] SCHILBACH L, TIMMERMANS B, REDDY V, et al. Toward a second-person neuroscience［J］. Behavioral and Brain Sciences, 2013, 36(4): 393-414.

[6] 柳昀哲, 张丹丹, 罗跃嘉. 婴儿社会和情绪脑机制的早期发展［J］. 科学通报, 2013, 58(9): 753-761.

    LIU Yunzhe, ZHANG Dandan, LUO Yuejia. Early development of the social and emotional brain in infancy［J］. Chin Sci Bull, 2013, 58(9): 753-761.

[7] 申荷永, 李新格, 朱绘霖. 自闭谱系障碍的大脑功能性连接研究进展［J］. 华南师范大学学报(自然科学版), 2014, 46(6): 10-15.

    SHEN Heyon, LI Xinge, ZHU Huilin. Research progress of functional connectivity of autism spectrum disorder［J］. Journal of South China normal university(natural science edition), 2014, 46(6): 10-15.

[8] FUNANE T, KIGUCHI M, ATSUMORI H, et al. Synchronous activity of two people’s prefrontal cortices during a cooperative task measured by simultaneous near-infrared spectroscopy［J］. Journal of Biomedical Optics, 2011, 16(7): 77011.

[9] CUI X, BRYANT D M, REISS A L. NIRS-based hyperscanning reveals increased interpersonal coherence in superior frontal cortex during cooperation［J］. Neuroimage, 2012, 59(3): 2430-2437.

[10] CHENG X, LI X, HU Y. Synchronous brain activity during cooperative exchange depends on gender of partner: A fNIRS‐based hyperscanning study［J］. Human Brain Mapping, 2015, 36(6): 2039-2048.

[11] HOLPER L, SCHOLKMANN F, WOLF M. Between-brain connectivity during imitation measured by fNIRS［J］. Neuroimage, 2012, 63(1): 212-222.

[12] HOLPER L, MUEHLEMANN T, SCHOLKMANN F, et al. Correction: testing the potential of a virtual reality neurorehabilitation system during performance of observation, imagery and imitation of motor actions recorded by wireless functional near-infrared spectroscopy (fNIRS)［J］. Journal of Neuroengineering and Rehabilitation, 2013, 10(1): 16.

[13] JIANG J, DAI B, PENG D, et al. Neural synchronization during face-to-face communication［J］. J Neurosci, 2012, 32(45): 16064-16069.

[14] DUAN L, LIU W J, DAI R N, et al. Cross-brain neurofeedback: scientific concept and experimental platform ［J］. PloS one, 2013, 5(8): e64590.

[15] CHOW C M, RUHL H, BUHRMESTER D. The mediating role of interpersonal competence between adolescents’ empathy and friendship quality: A dyadic approach［J］. Journal of adolescence, 2013, 36(1): 191-200.

[16] 刘可愚, 宋新涛, 李红政, 等. 不同心理素质水平军人对恐惧情绪的原因调节和反应调节特点［J］. 第三军医大学学报, 2012, 34(3): 244-249.

    LIU Keyu, SONG Xintao, LI Hongzheng, et al. Characteristics of antecedent focused regulation and response focused regulation in military persons with different levels of mental quality during fear emotion processes［J］. J Third Mil Med Univ, 2012, 34(3): 244-249.

[17] DAVIS M H. A multidimensional approach to individual differences in empathy［J］. JSAS Catalog of Selected Documents in Psychology, 1980, 10: 85.

[18] 张凤凤, 董毅, 汪凯, 等. 中文版人际反应指针量表 (IRI-C) 的信度及效度研究［J］. 中国临床心理学杂志, 2010, 18(2): 155-157.

    ZHANG Fengfeng, DONG Yi, WANG Kai, et al. Reliability and validity of the chinese version of the interpersonal reactivity index-C［J］. Chinese Journal of Clinical Psychology, 2010, 18(2): 155-157.

[19] TORRENCE C, COMPO G P. A practical guide to wavelet analysis［J］. Bulletin of the American Meteorological Society, 1998, 79(1): 61-78.

[20] CHANG C, GLOVER G H. Time-frequency dynamics of resting-state brain connectivity measured with fMRI［J］. Neuroimage, 2010, 50(1): 81-98.

[21] GRINSTED A, MOORE J C, JEVREJEVA S. Application of the cross wavelet transform and wavelet coherence to geophysical time series［J］. Nonlinear Processes in Geophysics, 2004, 11(5/6): 561-566.

[22] DU BOISGUEHENEUC F, LEVY R, VOLLE E, et al. Functions of the left superior frontal gyrus in humans: a lesion study［J］. Brain, 2006, 129(12): 3315-3328.

[23] BECHARA A, DAMASIO H, DAMASIO A R. Emotion, decision making and the orbitofrontal cortex［J］. Cerebral Cortex, 2000, 10(3): 295-307.

[24] ASTOLFI L, TOPPI J, DE VICO FALLANI F, et al. Imaging the social brain by simultaneous hyperscanning during subject interaction［J］. IEEE Intelligent Systems, 2011, 26(5): 38-45.

[25] 张立杰. 注意缺陷多动障碍儿童右侧额岛皮层静息态功能连接的改变［D］. 北京: 北京师范大学, 2010.

    ZHANG Lijie.Therestingstate functional connectivitychanges of the right frontal cortex island of children with attention deficit hyperactivity disorder［D］.Being: Beijing Normal University, 2010.

[26] LIU T, SAITO H, OI M. Role of the right inferior frontal gyrus in turn-based cooperation and competition: a near-infrared spectroscopy study［J］. Brain and Cognition, 2015, 99: 17-23.

[27] SAITO D N, TANABE H C, IZUMA K, et al. “Stay tuned”: inter-individual neural synchronization during mutual gaze and joint attention［J］. Frontiers in Intergrative Neuroscience, 2010, 4: 127.

[28] SHAMAY-TSOORY S. The neuropsychology of empathy: evidence from lesion studies［J］. Revue de Neuropsychologie, 2016, 7(4): 237-243.

[29] 崔芳, 南云, 罗跃嘉. 共情的认知神经研究回顾［J］. 心理科学进展, 2008, 16(2): 250-254.

    CUI Fang, NAN Yun, LUO Yuejia. A review of cognitive neuroscience studies on empathy［J］. Advances in Psychological Science, 2008, 16(2): 250-254.

[30] BAKER J M, LIU N, CUI X, et al. Sex differences in neural and behavioral signatures of cooperation revealed by fNIRS hyperscanning［J］. Scientific Reports, 2016, 6: 30512.

[31] PAN Y, CHENG X, ZHANG Z, et al. Cooperation in Lovers: an fNIRS-based hyperscanning study［J］. Human Brain Mapping, 2016, Oct 4 online.