CURRICULUM VITAE - BITS Pilani

• Educational qualifications/ Work Experience:Academic Subject(s) University PeriodDegree From To DurationB.Sc(H.) Physics (Major), Burdwan Univ. August, August 7, 3 yearsMaths., Chemistry (India) 1998 2001M.Sc Physics , Visva-Bharati August, 30 September 12, 2 yearsParticle-Physics (India) 2001 2003Ph.D Physics Beyond The Calcutta Univ. September 15, June 27, 4.8 yearsin Science Standard Model ( India) 2003 2008Postdoctoral Particle CP3-UCL October 15, October 7Fellow Phenomenology (Belgium) 2008 2010 2 yearsPostdoctoral Particle National Taiwan October 25, August 31Fellow Phenomenology Univ. (Taiwan) 2010 2012 2 yearsPostdoctoral Particle Sungkyunkwan September 1, February 28,Fellow Phenomenology Univ. (S. Korea) 2012 2013 0.5 yearsAssistant BITS, Pilani March 18,Professor Physics Goa Campus 2013 Present• Scholarships awarded:* Ph.D. Research Fellowship from Council of Scientific and Industrial Research (CSIR),Government of India. Qualified twice in December 2002 and June 2003 in national levelexamination.* Merit Scholarship in 2002 and 2003 from Visva-Bharati.• Research summary:The main goal of the LHC experiments is to hunt the Higgs boson, the key ingredient of Higgsmechanism, to generate the fermion as well as the heavy gauge boson masses in the StandardModel (SM). In SM the left-handed neutrino is massless, and, as a matter of fact there is noright-handed counterpart. However, different neutrino experiments have acquired enough datato prove that neutrinos are massive, albeit tiny. The easiest way to generate neutrino mass isthe seesaw mechanism. In many seesaw model, the main role is played by a heavy right-handedMajorana neutrino. This also appear in other scenario of new physics as well. Currently, I havebeen studying the collider signature of heavy Majorana neutrino at LHC.Besides that, from other neutrino experiments, like MINOS, T2K, now there is strong evidenceinfavour of thethirdmixingangle, namely, θ 13 tobenon-zero. Iamcurrently alsostudyingsomenew physics model to apply on the new results on the lepton flavour violation sector, namely,µ → eγ etc, as well as to explain the non-zero value of the third mixing angles.Recently, I have worked on the collider signature of the physics of universal extra-dimension. Ihave discussed the production of heavy Kaluza-Klein (KK) electroweak gauge bosons along withheavy quarks. The prospects of LHC in this direction is discussed with center of mass energy at10 TeV as well as 14 TeV. I have also exhibited the integrated luminosity required to obtain a5σ signal as function of different parameters of the model.2

In another recent work of collider physics I have explored the discovery potential of doublycharged Higgs boson at LHC . To be specific, for a mass range of 200−1000 GeV for the doublycharged Higgs scalar, the like-sign dilepton signal can be detected at LHC at a center of massenergy 14 TeV with an integrated luminosity, say, ≥ 30fb −1 . The same analysis is also performedwith 7 TeV and 10 TeV center of mass energy cases.During the period of my doctoral work, I have worked on different aspects of new physics Beyondthe Standard Model, e.g. Grand Unified Theory, Extra-Dimensions, Supersymmetry etc. Insummary, I have explored the power law running of different coupling constants in presence ofthe TeV scale extra dimensions. How presence of the KK-excited mode of different SM-particleswill effect the running of gauge as well as Yukawa couplings are discussed.AtthetreelevelofMinimalSupersymmetricStandardModel(MSSM),thelightestneutralHiggsis lighter than the Z−boson mass. However, due to the radiative correction at the one loop level,this bound is relaxed till 135 GeV. This saved MSSM, besides the non-observation of any neutralHiggs at the LEP experiment. I have in one project addressed the same question, and discussedhow far the bound on the neutral Higgs mass could be relaxed when different KK-excited modewill appear in the loop in both five and six dimensional scenarios.I have also found distinct ways to lower the intermediate scale in the left-right supersymmetricSO(10) Grand Unified theory to explain leptogenesis as well as light left-handed neutrino masses.This way, the intermediate scale and corresponding gauge bosons will be accessible at LHC andhence the subsequent phenomenology will be discussed. I have also estimated pentaquark masseswith a proper incorporation of colour-spin symmetry for the triquark state.• Teaching summary:I have very recently joined as Assistant Professor in Physics with the BITS, Pilani, Goa campus.During this short period I have taught some part of the advance topic of particle physics andperformsomelaboratoryduties. InthecomingsemesterIhaveplannedtoteachtheintroductorycourse on Mechanics, Oscillations and Wave and some advanced topic on the course of QuantumField Theory and will have some laboratory duties as well. I have also delivered some lectureson the topic of the introduction of particle physics.3

• Published research papers:Three selected papers♣ Implications of Recent Data on Neutrino Mixing and Lepton Flavour ViolatingDecays for the Zee ModelAuthors: Xiao-Gang He, Swarup Kumar Majee (NTU)Published in JHEP03: 023, 2012Publisher: Springer♣ Exploring the Universal Extra Dimension at the LHC.Authors: Gautam Bhattacharyya, Anindya Datta, Swarup Kumar Majee (CP3-UCL), AmitavaRaychaudhuriPublished in Nucl.Phys.B821:48-64,2009Publisher: Elsevier♣ Power law scaling in universal extra dimension scenarios.Authors: Gautam Bhattacharyya, Anindya Datta, Swarup Kumar Majee (CU and HRI), AmitavaRaychaudhuriPublished in Nucl.Phys.B760:117-127,2007Publisher: ElsevierComplete list1. Implications of Recent Data on Neutrino Mixing and Lepton Flavour ViolatingDecays for the Zee ModelAuthors: Xiao-Gang He, Swarup Kumar Majee (NTU)Published in JHEP03: 023, 2012Publisher: Springer.2. Dilepton Signal of a Type-II Seesaw at CERN LHC: Reveals a TeV Scale B−LGauge Symmetry.Authors: Swarup Kumar Majee (CP3-UCL), Narendra SahuPublished in Phys.RevD82: 053007, 2010Publisher: The American Physical Society.3. Exploring the Universal Extra Dimension at the LHC.Authors: Gautam Bhattacharyya, Anindya Datta, Swarup Kumar Majee (CP3-UCL), AmitavaRaychaudhuriPublished in Nucl.Phys.B821:48-64,2009Publisher: Elsevier.4. Effective Theory for Dark Matter and a New Force in the Dark Matter Sector.Authors: Xavier Calmet, Swarup Kumar Majee (CP3-UCL)Published in Phys.Lett.B679:267,2009Publisher: Elsevier.5. Neutrino mass and low-scale leptogenesis in a testable SUSY SO(10) model.Authors: Swarup Kumar Majee (CU and HRI), Mina K. Parida, Amitava RaychaudhuriPublished in Phys.Lett.B668:299,2008Publisher: Elsevier.6. Radiative correction to the lightest neutral Higgs mass in warped supersymmetry.4

Authors: Gautam Bhattacharyya, Swarup Kumar Majee (CU and HRI), Tirtha Sankar RayPublished in Phys.RevD78:071701,2008Publisher: The American Physical Society.7. SU(6), Triquark states, and the pentaquark.Authors: Swarup Kumar Majee (CU and HRI), Amitava RaychaudhuriPublished in Phys.Rev.D77:074016,2008Publisher: The American Physical Society.8. Extra-dimensional relaxation of the upper limit of the lightest supersymmetricneutral Higgs mass.Authors: Gautam Bhattacharyya, Swarup Kumar Majee (CU and HRI), Amitava RaychaudhuriPublished in Nucl.Phys.B793:114-130,2008Publisher: Elsevier.9. Low intermediate scales for leptogenesis in SUSY SO(10) GUTs.Authors: Swarup Kumar Majee (CU and HRI), Mina K. Parida, Amitava Raychaudhuri, UtpalSarkarPublished in Phys.Rev.D75:075003,2007Publisher: The American Physical Society.10. Power law scaling in universal extra dimension scenarios.Authors: Gautam Bhattacharyya, Anindya Datta, Swarup Kumar Majee (CU and HRI), AmitavaRaychaudhuriPublished in Nucl.Phys.B760:117-127,2007Publisher: Elsevier.List of papers under review• Dilepton + jet signature of Split-UED at the LHC.Authors: Swarup Kumar Majee (SKKU), Seong Chan ParkarXiv:1301.6421 [hep-ph].• The Impact of Non-zero θ 13 on Neutrino Mass and Leptogenesis in a SUSY SO(10)ModelAuthors: Swarup Kumar Majee (NTU)arXiv:1205.4751 [hep-ph].5

• Conference/Workshops Attended:1. The 2nd KIAS Phenomenology workshop, KIAS, Seoul, Korea, September 2012.2. LHC Focus Group Workshop on ”Collider and Dark Matter Physics”, NTU, Taipei, Taiwan,March 2012.3. XII Workshop on High Energy Physics Phenomenology, Mahabaleswar, India, January 2012.4. Preworkshop on Very Heavy Quarks at the LHC, 20 - 21 December 2011, NTU, Taipei, Taiwan.5. LHC and Cosmology focus group joint retreat, 17 December 2011, NTHU, Taiwan.6. International Workshop on Extra Dimensions in the Era of the LHC, 12-14 December 2011,Osaka, Japan.7. Ninth Particle Physics Phenomenology Workshop, June 3-6, 2011, NCU, Chungli, Taiwan.8. 2011 Annual Meeting of the Physical Society of ROC, January 25-27, 2011, NTNU, Taipei,Taiwan.9. Joint Retreat on Cosmology and LHC Physics, December 11, 2010, NCTS, NCKU, Tainan,Taiwan.10. 2 nd International Workshop on Dark Matter, Dark Energy and Matter-Antimatter Asymmetry, November 5-6, 2010, NTHU, Hsinchu, Taiwan.11. TOP2010, 3 rd International Workshop on Top Quark Physics, Bruges, Belgium, June 2010.12. XI Workshop on High Energy Physics Phenomenology, Physical Research Laboratory, Ahmedabad,India, January 2010.13. Neutrino masses and Lepton flavor violation at the LHC, Wu .. rzburg University, Germany,November, 2009.14. International Conference on Neutrino Physics in the LHC Era, BUE, CTP, Luxor, Egypt,November, 2009.15. Rencontres de Moriond,Electroweak Interactions and Unified Theories, La Thuile, Italy, March,2009.16. Physics of Warped Extra-Dimensions 2008, Indian Institute of Technology Kharagpur, Kharagpur(WB) India, February, 2008.17. Nu HoRIzons 2008, Harish-Chandra Research Institute, Allahabad (UP), India, February, 200818. Higgs Hunters’ Meeting, Visva-Bharati, West Bengal, India, February, 200819. School on QCD at LHC, Harish-Chandra Research Institute, Allahabad (UP), India, November,200720. Indian Physics Society Young Physicists Colloquium 2007, Saha Institute of Nuclear Physics,Kolkata (WB), India, August, 2007.6

21. Workshop on Grand Unification and Proton Decay, Abdus Salam International Center for TheoreticalPhysics, Trieste, Italy, July, 200722. International Workshop on Theoretical High Energy Physics (IWTHEP), IIT Roorkee, India,March, 2007.23. 21st International Workshop on Weak Interactions and Neutrinos (WIN07), SINP, Kolkata,India, January, 2007.24. Topical Meeting on Physics at the LHC, HRI, India, December, 2006,25. 17th DAE-BRNS Symposium on HEP, IIT KHARAGPUR, India, December, 2006.,26. Workshop on LHC Physics, TIFR, India, September, 2006,27. India based Neutrino Observatory Training School, (AS A TUTOR for the course on relativisticquantum mechanics and particle physics) (Phase I), Harish-Chandra Research Institute, Allahabad(UP), India, April, 200628. IX Workshop on High Energy Physics Phenomenology, Institute of Physics, Bhubneswar, India,January 200629. Summer School on High Energy Particle Physics, Abdus Salam International Center for TheoreticalPhysics, Trieste, Italy, June, 200530. School on Low Energy Effective Theory on Strong Interaction, Saha Institute of Nuclear Physics,Kolkata (WB), India, 200531. Scientific and Engineering Research Council (SERC) for Theoretical High Energy Physics(THEP) (MAIN), Indian Institute of Technology Kanpur, Kanpur (UP), India, December, 200432. XVI Department of Atomic Energy High Energy Physics Symposium, Saha Institute of NuclearPhysics, Kolkata (WB), India, November, 200433. Scientific and Engineering Research Council (SERC) for Theoretical High Energy Physics(THEP) (PRELI.), University of Hyderabad, Hyderabad (AP), India, November, 20037

• Lectures/Seminars presented:1. Phenomenological impact of nonzero θ 13 neutrino mixing angles, SKKU, Suwon, Korea, October2012.2. Extra-Dimension at LHC, KIAS, Seoul, Korea, September 2012.3. Universal Extra-Dimension at LHC, presented at Academia Sinica, Taiwan, April 2012.4. Phenomenological Impact of Recent Neutrino Data for the Zee Model, presented at LHC FocusGroup Workshop on ”Collider and Dark Matter Physics”, NTU, Taipei, Taiwan, March 2012.5. Universal Extra-Dimension at LHC, presented at IITG, Guwahati, India, January 2012.6. Universal Extra-Dimension at LHC, presented at IACS, Kolkata, India, January 2012.7. Universal Extra-Dimension at LHC, presented at University of Hyderabad, Hyderabad, India,January 2012.8. Universal Extra-Dimension at LHC, presented at XII Workshop on High Energy Physics Phenomenology,Mahabaleswar, India, January 2012.9. Implication of Recent Data on Zee model of Neutrino mass, presented at NTHU, Hsinchu,Taiwan, December, 2011.10. To search for the true nature of Neutral Heavy Lepton, presented at Preworkshop on Very HeavyQuarks at the LHC, NTU, Taipei, Taiwan, December 2011.11. Universal Extra-Dimension at LHC, presented at International Workshop on Extra Dimensions inthe Era of the LHC, Osaka, Japan, December, 2011.12. Universal Extra-Dimension at LHC, presented at NTNU, Taipei, Taiwan, July, 2011.13. Universal Extra-Dimension at LHC, presented at NCU, Chungli, Taiwan, June, 2011.14. Universal Extra-Dimension at LHC, presented at NTHU, Hsinchu, Taiwan, May, 2011.15. UED @ LHC, presented at National Taiwan University, Taipei, Taiwan, November 2010.16. Modified Type-II seesaw and it’s collider signature at LHC, presented at the CP3-UniversitéCatholique de Louvain, Belgium, May, 2010.17. Neutrino masses and leptogenesis in SUSY SO(10) model, presented at , Université Paris-Sud,Orsay Cedex, France, March, 2010.18. Neutrino masses and leptogenesis in SUSY SO(10) model, presented at Neutrino masses andLepton flavor violation at the LHC, Wu .. rzburg University, Germany, November, 2009.19. Neutrino masses and leptogenesis in a testable SUSY SO(10) model, presented at InternationalConference on Neutrino Physics in the LHC Era, BUE, CTP, Luxor, Egypt, November, 2009.20. Unification in Extra-Dimensional Scenario, presented at Rencontres de Moriond,Electroweak Interactionsand Unified Theories, La Thuile, Italy, March, 2009.8

21. Lightest Supersymmetric Neutral Higgs in the Extra-Dimensional Scenario, presented at theCP3-Université Catholique de Louvain, Belgium, November, 200822. Lightest Supersymmetric Neutral Higgs in the Extra-Dimensional Scenario, presented at theJamia-Milia Islamia University, New Delhi, India, September, 200823. Lightest Supersymmetric Neutral Higgs in the Extra-Dimensional Scenario, presented at theHarish-Chandra Research Institute, Allahabad (UP), India, April, 200824. Lightest Supersymmetric Neutral Higgs in the Extra-Dimensional Scenario, presented at theSaha Institute of Nuclear Physics, Kolkata (WB), India, March, 200825. Relaxation of the upper limit of the LSNH mass in the Extra-Dimensional Scenario, presented atPWED meeting, Indian Institute of Technology Kharagpur, Kharagpur (WB), India, February,200826. Relaxation of the upper limit of the LSNH mass in the Extra-Dimensional Scenario, presentedat Higgs Hunter Meeting, Visva-Bharati, Santiniketan (WB), India, February, 200827. Some Explorations of New Physics Beyond The Standard Model, presented at the University ofCalcutta, Kolkata (WB), India, September, 200728. Low intermediate scale for leptogenesis in supersymmetric SO(10) Grand Unified Theory , presentedat Indian Physics Society Young Physicists Colloquium 2007, Saha Institute of NuclearPhysics, Kolkata (WB), India, August, 2007.29. Can we have a low intermediate scale?, presented at Harish-Chandra Research Institute, Allahabad(UP), India, April, 200730. Power law scaling in UED Scenario,presentedat21stInternationalWorkshoponWeakInteractionsand Neutrinos (WIN07), Saha Institute of Nuclear Physics, Kolkata, India, January, 200731. Power law scaling in UED Scenario, presented at XVII Department of Atomic Energy High EnergyPhysics Symposium, Indian Institute of Technology Kharagpur, Kharagpur (WB) India,December, 200632. Bounds on Higgs mass in Extra Dimensional Scenario, presented at Harish-Chandra ResearchInstitute, Allahabad (UP), India, April, 200633. Pentaquark - A multiquark theory, presented at Harish-Chandra Research Institute, Allahabad(UP), India, September, 200534. Pentaquark - A multiquark theory, presented at Visva-Bharati, Santiniketan (WB), India,September, 200535. Estimation of the Pentaquark masses, presented at XVI Department of Atomic Energy High EnergyPhysics Symposium, Saha Institute of Nuclear Physics, Kolkata (WB), India, November, 20049

List of Referees:-1. Professor Amitava Raychaudhuri (PhD Supervisor)Sir Tarak Nath Palit Professor of PhysicsDepartment of PhysicsUniversity of Calcutta92, Acharya Prafulla Chandra RoadKolkata - 700 009, IndiaEmail - palitprof@gmail.com, and arphy@caluniv.ac.inPhone : +91 33 2350 8386, extn:5092. Professor Gautam BhattacharyyaSaha Institute of Nuclear Physics1/AF, BidhannagarKolkata - 700 064, IndiaEmail - Gautam.Bhattacharyya@saha.ac.inMobile : +91 9433028531Fax : +91 33 233746373. Professor Seong Chan ParkDepartment of PhysicsSchool of Natural ScienceSungkyunkwan University (SKKU)Suwon 440-746 KoreaEmail - s.park@skku.eduEmail - seongchan.park@gmail.comTel: +82-(31) 299-4546Fax: +82-(31) 290-7055Mobile: +82-10-3018-45974. Professor Xiao Gang HeDepartment of PhysicsNational Taiwan UniversityTaipei - 10617, Republic of China (Taiwan)Email - hexg@phys.ntu.edu.tw10