K
Kalyan Allada
Researcher at Massachusetts Institute of Technology
Publications - 70
Citations - 1932
Kalyan Allada is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Nucleon & Scattering. The author has an hindex of 21, co-authored 64 publications receiving 1667 citations. Previous affiliations of Kalyan Allada include University of Kentucky & Thomas Jefferson National Accelerator Facility.
Papers
More filters
Journal ArticleDOI
Search for a new gauge boson in electron-nucleus fixed-target scattering by the APEX experiment.
S. Abrahamyan,Z. Ahmed,Kalyan Allada,D. Anez,T. Averett,A. Barbieri,K. Bartlett,James Baker Beacham,J. Bono,James Boyce,P. Brindza,A. Camsonne,Kyle Cranmer,M. M. Dalton,C. W. de Jager,C. W. de Jager,J. Donaghy,R. Essig,C. Field,E. Folts,Ashot Gasparian,Neil Goeckner-Wald,J. Gomez,M. T. Graham,J. O. Hansen,Douglas Higinbotham,T. Holmstrom,J. Huang,S. Iqbal,J. A. Jaros,Eric L. N. Jensen,A. Kelleher,M. Khandaker,M. Khandaker,J. LeRose,R. A. Lindgren,Nilanga Liyanage,E. Long,Juliette Mammei,Pete Markowitz,T. Maruyama,V. Maxwell,S. Mayilyan,J. McDonald,R. Michaels,K.C. Moffeit,Vladimir Nelyubin,A.C. Odian,M. Oriunno,R. Partridge,M. Paolone,E. Piasetzky,Ishay Pomerantz,Yujie Qiang,S. Riordan,Y. Roblin,B. Sawatzky,Philip Schuster,Philip Schuster,J. Segal,L. Selvy,A. Shahinyan,R. Subedi,Vincent Sulkosky,S. Stepanyan,Natalia Toro,Natalia Toro,D. Walz,Bogdan Wojtsekhowski,Jie Zhang +69 more
TL;DR: In this paper, a search at the Jefferson Laboratory for new forces mediated by sub-GeV vector bosons with weak coupling α' to electrons was conducted using APEX test run data.
Journal ArticleDOI
Single spin asymmetries in charged kaon production from semi-inclusive deep inelastic scattering on a transversely polarized He 3 target
Yuxiang Zhao,Yingxiao Wang,Kalyan Allada,Kalyan Allada,K. A. Aniol,J. R. M. Annand,T. Averett,Fatiha Benmokhtar,William Bertozzi,P. C. Bradshaw,P. Bosted,A. Camsonne,Mustafa Canan,G. D. Cates,Chunhui Chen,J. P. Chen,W. Chen,K. Chirapatpimol,E. Chudakov,E. Cisbani,J. C. Cornejo,F. Cusanno,M. M. Dalton,Wouter Deconinck,C. W. de Jager,R. De Leo,X. Deng,A. Deur,H. Ding,P. A. M. Dolph,C. Dutta,Dipangkar Dutta,L. El Fassi,Salvatore Frullani,Haiyan Gao,Franco Garibaldi,D. Gaskell,Shalev Gilad,Ronald Gilman,Ronald Gilman,O. Glamazdin,S. Golge,L. Guo,David Hamilton,Olfred Hansen,Douglas Higinbotham,T. Holmstrom,J. Huang,J. Huang,J. Huang,M. Huang,H. F. Ibrahim,Mauro Iodice,X. Jiang,X. Jiang,G. Jin,M. K. Jones,Joseph M. Katich,A. Kelleher,W. Kim,A. Kolarkar,Wolfgang Korsch,J. J. LeRose,X. Li,Y. Li,R. A. Lindgren,Nilanga Liyanage,E. Long,E. Long,H. J. Lu,D. J. Margaziotis,Pete Markowitz,S. Marrone,D. McNulty,Z. E. Meziani,R. Michaels,B. Moffit,B. Moffit,C. Muñoz Camacho,S. K. Nanda,Amrendra Narayan,Vladimir Nelyubin,B. E. Norum,Young Do Oh,M. Osipenko,Diana Parno,Jen-Chieh Peng,S. K. Phillips,M. Posik,A. J. R. Puckett,A. J. R. Puckett,Xin Qian,Xin Qian,Xin Qian,Yujie Qiang,Yujie Qiang,Abdurahim Rakhman,Ronald Ransome,S. Riordan,Arijit Saha,B. Sawatzky,B. Sawatzky,E. Schulte,A. Shahinyan,M. H. Shabestari,Simon Širca,S. S. Stepanyan,R. Subedi,Vincent Sulkosky,Vincent Sulkosky,L. G. Tang,A. Tobias,G. M. Urciuoli,I. Vilardi,K. Wang,Bogdan Wojtsekhowski,X. Yan,H. Yao,Y. X. Ye,Z. Ye,L. Yuan,X. Zhan,Y. Zhang,Yong Zhang,B. Zhao,X. Zheng,L. Y. Zhu,L. Y. Zhu,Xiaofeng Zhu,X. Zong +129 more
TL;DR: In this article, the first measurement of target single spin asymmetries in the semi-inclusive ^3He(e,e^′π^±)X reaction on a transversely polarized target was reported.
Journal ArticleDOI
High-Precision Measurement of the Proton Elastic Form Factor Ratio $\mu_pG_E/G_M$ at low $Q^2$
X. Zhan,X. Zhan,Kalyan Allada,D. S. Armstrong,John Arrington,William Bertozzi,W. U. Boeglin,J. P. Chen,K. Chirapatpimol,S. Choi,E. Chudakov,E. Cisbani,P. Decowski,C. Dutta,S. Frullani,E. Fuchey,F. Garibaldi,Shalev Gilad,Ronald Gilman,Ronald Gilman,J. Glister,J. Glister,K. Hafidi,B. Hahn,J. O. Hansen,Douglas Higinbotham,T. Holmstrom,R. J. Holt,J. Huang,G. M. Huber,F. Itard,C. W. de Jager,X. Jiang,M. Johnson,Joseph M. Katich,R. De Leo,J. J. LeRose,R. A. Lindgren,E. Long,D. J. Margaziotis,S. May-Tal Beck,D. G. Meekins,R. Michaels,B. Moffit,B. Moffit,B. E. Norum,M. Olson,E. Piasetzky,Ishay Pomerantz,D. Protopopescu,Xin Qian,Yujie Qiang,Yujie Qiang,Abdurahim Rakhman,Ronald Ransome,P. E. Reimer,J. Reinhold,S. Riordan,Guy Ron,Guy Ron,A. Saha,A. J. Sarty,B. Sawatzky,B. Sawatzky,E. Schulte,M. H. Shabestari,A. Shahinyan,R. Shneor,Simon Širca,P. Solvignon,P. Solvignon,Nikolaos Sparveris,Nikolaos Sparveris,S. Strauch,R. Subedi,Vincent Sulkosky,Vincent Sulkosky,I. Vilardi,Yingxiao Wang,Bogdan Wojtsekhowski,Z. Ye,Y. Zhang +81 more
TL;DR: In this paper, the authors reported a new, high-precision measurement of the proton elastic form factor ratio μ p G E / G M for the four-momentum transfer squared Q 2 = 0.3 − 0.7 (GeV / c ) 2.
Journal ArticleDOI
Deeply Virtual Compton Scattering off the Neutron
M. Benali,C. Desnault,M. Mazouz,Z. Ahmed,H. Albataineh,Kalyan Allada,K. A. Aniol,V. Bellini,W. U. Boeglin,P. Bertin,P. Bertin,M. Brossard,A. Camsonne,Mustafa Canan,S. Chandavar,Chunhui Chen,J. P. Chen,Maxime Defurne,C. W. de Jager,R. De Leo,A. Deur,L. El Fassi,L. El Fassi,Rolf Ent,D. Flay,M. Friend,E. Fuchey,S. Frullani,F. Garibaldi,David Gaskell,A. Giusa,O. Glamazdin,S. Golge,J. Gomez,Olfred Hansen,Douglas Higinbotham,T. Holmstrom,Tanja Horn,J. Huang,M. Huang,G. M. Huber,Charles Hyde,Charles Hyde,S. Iqbal,F. Itard,Ho. Kang,H. Kang,A. Kelleher,Cynthia Keppel,S. Koirala,I. Korover,J. LeRose,R. A. Lindgren,E. Long,M. Magne,Juliette Mammei,D. J. Margaziotis,Pete Markowitz,A. Martí Jiménez-Argüello,A. Martí Jiménez-Argüello,Franco Meddi,D. G. Meekins,R. Michaels,M. Mihovilovic,N. Muangma,C. Munoz Camacho,C. Munoz Camacho,P. Nadel-Turonski,N. Nuruzzaman,R. Paremuzyan,R. I. Pomatsalyuk,Andrew Puckett,V. A. Punjabi,Yujie Qiang,Abdurahim Rakhman,M. N. H. Rashad,S. Riordan,J. Roche,G.V. Russo,F. Sabatié,Kiadtisak Saenboonruang,Kiadtisak Saenboonruang,Arijit Saha,B. Sawatzky,B. Sawatzky,L. Selvy,A. Shahinyan,Simon Širca,P. Solvignon,M. L. Sperduto,R. Subedi,Vincent Sulkosky,C. M. Sutera,William A. Tobias,G. M. Urciuoli,D. Wang,Bogdan Wojtsekhowski,H. Yao,Z. Ye,L. Zana,X. Zhan,Jie Zhang,B. Zhao,Z. W. Zhao,X. Zheng,P. Zhu +105 more
TL;DR: The present experiment exploits the interference between the deeply virtual Compton scattering (DVCS) and the Bethe-Heitler processes to extract a linear combination of generalized parton distributions (GPDs) particularly sensitive to E_{q}, the least constrained GPD.
Journal ArticleDOI
Measurement of parity violation in electron–quark scattering
D. Wang,K. Pan,R. Subedi,R. Subedi,X. Deng,Z. Ahmed,Kalyan Allada,K. A. Aniol,D. S. Armstrong,John Arrington,V. Bellini,R. S. Beminiwattha,Jay Benesch,Fatiha Benmokhtar,William Bertozzi,A. Camsonne,Mustafa Canan,G. D. Cates,J. P. Chen,E. Chudakov,E. Cisbani,M. M. Dalton,C. W. de Jager,C. W. de Jager,R. De Leo,Wouter Deconinck,Wouter Deconinck,A. Deur,C. Dutta,L. El Fassi,Jens Erler,D. Flay,G. B. Franklin,M. Friend,S. Frullani,F. Garibaldi,Shalev Gilad,A. Giusa,A. V. Glamazdin,S. Golge,K. Grimm,K. Hafidi,J. O. Hansen,Douglas Higinbotham,R. Holmes,T. Holmstrom,R. J. Holt,J. Huang,C. E. Hyde,C. E. Hyde,C. M. Jen,D. C. Jones,Ho-Young Kang,P. M. King,S. Kowalski,K. S. Kumar,Jongmin Lee,Jongmin Lee,J. LeRose,Nilanga Liyanage,E. Long,D. McNulty,D. McNulty,D. J. Margaziotis,Franco Meddi,D. G. Meekins,L. Mercado,Z. E. Meziani,R. Michaels,M. Mihovilovic,N. Muangma,K. E. Myers,K. E. Myers,S. K. Nanda,Amrendra Narayan,Vladimir Nelyubin,Nuruzzaman,Young Do Oh,Diana Parno,Kent Paschke,S. K. Phillips,Xin Qian,Yujie Qiang,B. P. Quinn,Abdurahim Rakhman,P. E. Reimer,K. Rider,S. Riordan,J. Roche,J. G. Rubin,G.V. Russo,Kiadtisak Saenboonruang,Kiadtisak Saenboonruang,Arijit Saha,B. Sawatzky,A. Shahinyan,R. Silwal,Simon Širca,Paul Souder,R. Suleiman,Vincent Sulkosky,C. M. Sutera,William A. Tobias,G. M. Urciuoli,B. Waidyawansa,Bogdan Wojtsekhowski,L. Ye,B. Zhao,X. Zheng +108 more
TL;DR: A measurement of the parity-violating asymmetry in electron–quark scattering yields a determination of 2C2u − C2d with a precision increased by a factor of five relative to the earlier result, providing evidence with greater than 95 per cent confidence that the C2q couplings are non-zero, as predicted by the electroweak theory.