IPMU, the University of Tokyo, Kashiwa-no-Ha Kashiwa City, Chiba , JAPAN (Work Address)

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Kai Wang Curriculum Vitae Contact Information IPMU, the University of Tokyo, 5-1-5 Kashiwa-no-Ha Kashiwa City, Chiba 277-8568, JAPAN (Work Address) 423 Avalon Lake Road, Danbury, CT 06810, USA (Home Address) kai.wang@ipmu.jp (Electronic Mail) http://member.ipmu.jp/kai.wang/ +1-608-467-1201 (Skype online number, call forwarding to Japan enabled) +1-608-770-7992 (US mobile number, only available while in US) Research Interests Collider Phenomenology: beyond standard model(bsm) physics searches at Tevatron or LHC, linear collider physics Models of BSM Physics: supersymmetric models, models on neutrino physics, models of electroweak symmetry breaking Education and Research Experiences IPMU, the University of Tokyo Kashiwa, Chiba, JAPAN Postdoctoral Research Associate September, 2008 August, 2011 University of Wisconsin Madison Madison, Wisconsin U.S.A Ph.D. in Theoretical Elementary Particle Physics Research: Collider Phenomenology January, 2005 August, 2008 Oklahoma State University Stillwater, Oklahoma, U.S.A M.Sc. in Theoretical Elementary Particle Physics Research: Supersymmetric Models August, 2000 August, 2004 Zhejiang University Hangzhou, Zhejiang, CHINA B.Sc. in Physics September, 1996 June, 2000 Grants Japan Society for the Promotion of Science (JSPS) Grant-in-Aid for Young Scientists (B)22740143 2010-2011 1 of 5

Teaching and Outreach Experiences Series lectures to graduate students May, 2010 University of Delaware, Newark, DE (host: Professor Qaisar Shafi) Introduction to Collider Phenomenology Series lectures to graduate students May, 2006 Zhejiang University, Hangzhou, CHINA (host: Professor Ming-xing Luo) Supersymmetry: A Phenomenological Approach Graduate Teaching Assistant January, 2005 August, 2007 Department of Physics, University of Wisconsin, Madison General Physics Discussion and Labs sessions Graduate Teaching Assistant August, 2000 August, 2004 Department of Physics, Oklahoma State University Lead TA for E&M Lab General Physics Labs sessions Undergraduate Mathematical Physics Discussion IPMU Outreach Program Ask a Scientist November, 2010 Introduction of supersymmetry to general public Honors and Awards Outstanding Teaching Assistant Award March, 2002 Department of Physics, Oklahoma State University, U.S.A Outstanding Graduate Award June, 2000 Zhejiang Provincial Ministry of Education, CHINA Selected Seminar Talks 9. Searching light neutralino dark matter at the colliders February, 2011, Columbia University, New York, USA December, 2010, University of Maryland, College Park, USA 8. Inverse see-saw in supersymmetry September, 2010, Cornell University, Ithaca, USA May, 2010, University of Delaware, Newark, USA 7. Explorations of the A t FB at Tevatron December, 2010, University of Delaware, Newark, USA September, 2010, Brookhaven National Lab, USA September, 2010, Yale University, New Haven, USA 2 of 5

6. Probing B/L Violation in the Extended Scalar Models at the LHC September, 2009, Brookhaven National Lab, USA September, 2009, University of Wisconsin, Madison September, 2009, University of California, Irvine, USA September, 2009, Kavli Institute for Theoretical Physics, University of California, Santa Barbara, USA May, 2009, Argonne National Lab,Chicago, USA April, 2009, University of California, Davis, USA 5. Testing Origin of Neutrino Mass at the LHC November, 2008, KEK, Tsukuba, JAPAN September, 2008, IPMU, University of Tokyo, JAPAN April, 2008, Fermi National Accelerator Lab, USA April, 2008, University of California at Berkeley, USA February, 2008, University of Maryland, College Park, USA February, 2008, University of Delaware, USA 4. Gauge Mediated Split Supersymmetry June, 2005, University of California, Riverside, USA 3. A symmetry approach to the µ-term problem February, 2005, University of Wisconsin-Madison, USA 2. Hidden Symmetries and Their Implications October, 2004, Lawrence Berkeley National Lab, USA October, 2004, University of California, Los Angeles, USA October, 2004, University of California, Santa Cruz, USA October, 2004, University of California, Riverside, USA September, 2004, University of California, Irvine, USA 1. Solving the Problems in SUSY by Discrete Gauge Symmetries October, 2003, University of Oklahoma and Oklahoma State University(Joint), USA 3 of 5

Publications Refereed Journals or Submitted (available on arxiv) 18. NLSP Gluino Search at the Tevatron and early LHC M. A. Ajaib, T. Li, Q. Shafi and K. Wang arxiv:1011.5518 [hep-ph], Accepted for publication at JHEP 17. Inverse seesaw in supersymmetry S. C. Park and K. Wang arxiv:1011.3621 [hep-ph], Submitted to PRD 16. TeV scale horizontal gauge symmetry and its implications in B-physics S. C. Park, J. Shu, K. Wang and T. T. Yanagida Phys. Rev. D 82, 114003 (2010) [arxiv:1008.4445 [hep-ph]] 15. Nearly Degenerate Gauginos and Dark Matter at the LHC G. F. Giudice, T. Han, K. Wang and L. T. Wang Phys. Rev. D 81, 115011 (2010) [arxiv:1004.4902 [hep-ph]] 14. Explorations of the Top Quark Forward-Backward Asymmetry at the Tevatron J. Shu, T. M. P. Tait and K. Wang Phys. Rev. D 81, 034012 (2010) [arxiv:0911.3237 [hep-ph]] 13. Axigluon as Possible Explanation for p p t t Forward-Backward Asymmetry P. H. Frampton, J. Shu and K. Wang Phys. Lett. B 683, 294 (2010) [arxiv:0911.2955 [hep-ph]]. 12. Invisible Higgs decay with B Kν ν constraint C. S. Kim, S. C. Park, K. Wang and G. Zhu Phys. Rev. D 81, 054004 (2010) [arxiv:0910.4291 [hep-ph]] 11. Neutrino mass from a hidden world and its phenomenological implications S. C. Park, K. Wang and T. T. Yanagida Phys. Lett. B 685, 309 (2010) [arxiv:0909.2937 [hep-ph]] 10. Like-sign Di-lepton Signals in Higgsless Models at the LHC T. Han, H. S. Liu, M. x. Luo, K. Wang and W. Wu Phys. Rev. D 80, 095010 (2009) [arxiv:0908.2186 [hep-ph]]. 9. Triplet Scalars and Dark Matter at the LHC P. Fileviez Perez, H. H. Patel, M. J. Ramsey-Musolf and K. Wang Phys. Rev. D 79, 055024 (2009) [arxiv:0811.3957 [hep-ph]] 4 of 5

8. Color Sextet Scalars at the CERN Large Hadron Collider C. R. Chen, W. Klemm, V. Rentala and K. Wang Phys. Rev. D 79, 054002 (2009) [arxiv:0811.2105 [hep-ph]] 7. GeV Majorana Neutrinos in Top-quark Decay at the LHC Z. Si and K. Wang Phys. Rev. D 79, 014034 (2009) [arxiv:0810.5266 [hep-ph]] 6. Neutrino Masses and the LHC: Testing Type II Seesaw P. Fileviez Perez, T. Han, G. y. Huang, T. Li and K. Wang Phys. Rev. D 78, 015018 (2008) [arxiv:0805.3536 [hep-ph]] 5. Testing a Neutrino Mass Generation Mechanism at the Large Hadron Collider P. Fileviez Perez, T. Han, G. Y. Huang, T. Li and K. Wang Phys. Rev. D 78, 071301 (2008) [arxiv:0803.3450 [hep-ph]] 4. Pair Production of Doubly-Charged Scalars: Neutrino Mass Constraints and Signals at the LHC T. Han, B. Mukhopadhyaya, Z. Si and K. Wang Phys. Rev. D 76, 075013 (2007) [arxiv:0706.0441 [hep-ph]] 3. Gauged baryon parity and nucleon stability Phys. Lett. B 570, 32 (2003) [arxiv:hep-ph/0306003] 2. Stabilizing the axion by discrete gauge symmetries Phys. Lett. B 560, 214 (2003) [arxiv:hep-ph/0212339] 1. Natural R-parity, mu-term, and fermion mass hierarchy from discrete gauge symmetries Nucl. Phys. B 660, 322 (2003) [arxiv:hep-ph/0212245] Proceedings and other non-refereed papers (available on arxiv) 2. Hidden symmetries and their implications for particle physics K. Wang [arxiv:hep-ph/0407234] 1. Stabilizing the axion and a natural solution to the mu problem of supersymmetry K. Wang [arxiv:hep-ph/0402052] 5 of 5

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