Bogdan Wojtsekhowski
Thomas Jefferson National Accelerator Facility
254 Papers
887 Citations
Bogdan Wojtsekhowski is an academic researcher from Thomas Jefferson National Accelerator Facility. The author has contributed to research in topics: Nucleon & Scattering. The author has an hindex of 49, co-authored 250 publications. Previous affiliations of Bogdan Wojtsekhowski include College of William & Mary & Argonne National Laboratory.
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Papers
Author Correction: Measurement of the generalized spin polarizabilities of the neutron in the low-Q2 region
V. Sulkosky,C. Peng,Jian-Ping Chen,A. Deur,S. Abrahamyan,K. A. Aniol,David Armstrong,T. Averett,S. L. Bailey,A. Beck,P.Y. Bertin,F. Butaru,W. U. Boeglin,A. Camsonne,Gordon D. Cates,Chia-Cheh Chang,Seonho Choi,E. Chudakov,L. Coman,J. C. Cornejo,B. Craver,F. Cusanno,R. De Leo,C. W. de Jager,Joseph D. Denton,S. Dhamija,R. J. Feuerbach,John M. Finn,S. Frullani,K. Fuoti,Haiyan Gao,F. Garibaldi,Olivier Gayou,Ronald Gilman,A. V. Glamazdin,Charles Glashausser,Javier Gomez,J. O. Hansen,D. Hayes,F. W. Hersman,Douglas Higinbotham,T. Holmstrom,Thomas Brian Humensky,C. E. Hyde,H. F. Ibrahim,Mauro Iodice,Xiandong Jiang,L. J. Kaufman,A. Kelleher,K. Ellen Keister,Wooyoung Kim,A. Kolarkar,N. R. Kolb,Wolfgang Korsch,K. Kramer,G. J. Kumbartzki,L. Lagamba,V. Laine,Geraud Laveissiere,J. J. LeRose,David Lhuillier,R. A. Lindgren,Nilanga Liyanage,Haining Lu,B. Ma,D. J. Margaziotis,Pete Markowitz,K. McCormick,M. Meziane,Z. E. Meziani,R. Michaels,Bryan J. Moffit,P. Monaghan,S. K. Nanda,Jennifer L. Niedziela,M. Niskin,Ronald Pandolfi,Kent Paschke,M. Potokar,Andrew Puckett,V. A. Punjabi,Yi Qiang,Ronald Ransome,B. Reitz,R. Roche,A. Saha,A. Shabetai,Simon Širca,Jaideep Singh,Karl Slifer,R. Snyder,P. Solvignon,R. Stringer,R. Subedi,William A. Tobias,Ngyen Ton,P. E. Ulmer,G. M. Urciuoli,Antonin Vacheret,E. Voutier,Kebin Wang,Lu Shi Wan,Bogdan Wojtsekhowski,SeungTae Woo,Huan Yao,Jing Yuan,X. Zhan,Xiaochao Zheng,Lingyan Zhu +108 more
•Posted Content
The cross-section measurement for the $^3{\rm H}(e,e'K^+)nn\Lambda$ reaction
K. N. Suzuki,Toshiyuki Gogami,B. Pandey,K. Itabashi,S. Nagao,K. Okuyama,S. N. Nakamura,L. G. Tang,D. Abrams,T. Akiyama,Darko Androić,K. A. Aniol,T. Averett,C. Ayerbe Gayoso,J. Bane,S. Barcus,J. Barrow,V. Bellini,H. Bhatt,D. Bhetuwal,D. Biswas,Alexandre Camsonne,J. Castellanos,J-P. Chen,J. P. Chen,S. Covrig,D. Chrisman,R. Cruz-Torres,R. Das,E. Fuchey,Kondo Gnanvo,F. Garibaldi,T. Gautam,J. Gomez,Paul Gueye,T. J. Hague,Olfred Hansen,W. Henry,F. Hauenstein,Douglas Higinbotham,C. E. Hyde,M. Kaneta,C. E. Keppel,T. Kutz,N. Lashley-Colthirst,Shanfeng Li,Hongjun Liu,Juliette Mammei,Pete Markowitz,R. E. McClellan,Franco Meddi,D. G. Meekins,R. Michaels,M. Mihovilovic,A. Moyer,D. Nguyen,M. Nycz,V. Owen,C. Palatchi,S. Park,T. Petkovic,S. Premathilake,P. E. Reimer,Joerg Reinhold,S. Riordan,V. Rodriguez,C. Samanta,S. N. Santiesteban,B. Sawatzky,Simon Širca,Karl Slifer,T. Su,Y. Tian,Y. Toyama,K. Uehara,G. M. Urciuoli,D. Votaw,J. Williamson,Bogdan Wojtsekhowski,S. A. Wood,B. Yale,Z. Ye,Jie Zhang,X. Zheng +83 more
TL;DR: In this paper, the authors derived the reaction cross section for the missing-mass spectroscopy of the $(e,e'K^+) reaction at the Jefferson Lab's experimental Hall A. The results showed that no significant structures were observed with the acceptance cuts, and the upper limit of the reaction-cross section was obtained to be $21$ and $31~\rm{nb/sr}$ at the $90\%$-confidence level when theoretical predictions of $(-B_{\Lambda}, \Gamma) = (0.25,
•Journal Article
Probing for high momentum protons in $^4$He via the $^4He(e,e'p)X$ reaction
S. Iqbal,Fatiha Benmokhtar,M. Ivanov,N. See,K. A. Aniol,Douglas Higinbotham,C. Boyd,A. Gadsby,Shalev Gilad,Arijit Saha,J. M. Udías,J. S. Goodwill,D. Finton,Z. Ye,P. Solvignon,P. Aguilera,Z. Ahmed,H. Al-Bataineh,Kalyan Allada,B. D. Anderson,D. Anez,J. R. M. Annand,J. Arrington,T. Averett,H. Baghdasaryan,X. Bai,A. Beck,S. Beck,V. Bellini,A. Camsonne,Chunhui Chen,Jian-Ping Chen,K. Chirapatpimol,E. Cisbani,M. M. Dalton,A. Daniel,Donal Day,Wouter Deconinck,M. Defurne,D. Flay,Nadia Fomin,M. Friend,S. Frullani,E. Fuchey,F. Garibaldi,D. Gaskell,Ronald Gilman,S. Glamazdin,C. Gu,Paul Gueye,C. Hanretty,J. O. Hansen,M. Hashemi Shabestari,M. Huang,G. Jin,N. Kalantarians,Ho. Kang,A. Kelleher,I. Korover,J. LeRose,J. Leckey,R. A. Lindgren,E. Long,Juliette Mammei,D. J. Margaziotis,P. Markowitz,D. G. Meekins,Z. E. Meziani,R. Michaels,M. Mihovilovič,N. Muangma,C. Muñoz Camacho,B. E. Norum,N. Nuruzzaman,K. Pan,S. K. Phillips,E. Piasetzky,Ishay Pomerantz,M. Posik,V. A. Punjabi,Xin Qian,Yujie Qiang,X. Qiu,P. E. Reimer,Abdurahim Rakhman,S. Riordan,Guy Ron,O. Rondon-Aramayo,L. Selvy,A. Shahinyan,R. Shneor,S. Širca,Karl Slifer,Nikolaos Sparveris,R. Subedi,Vincent Sulkosky,D. Wang,J. W. Watson,Larry Weinstein,Bogdan Wojtsekhowski,S. A. Wood,I. Yaron,X. Zhan,Jie Zhang,Yiyang Zhang,B. Zhao,X. Zheng,Ping Zhu,R. Zielinski +108 more
TL;DR: Iqbal et al. as discussed by the authors showed that the effects of initial-state multi-nucleon correlations are stronger than expected by the Relativistic Distorted Wave Impulse Approximation (RDWIA) model.
•Journal Article
Double spin asymmetries of inclusive hadron electroproduction from a transversely polarized [superscript 3]He target
Y. Zhao,K. A. Aniol,J. R. M. Annand,T. Averett,Fatiha Benmokhtar,P. C. Bradshaw,P. E. Bosted,Alexandre 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,C. W. de Jager,R. De Leo,X. Deng,A. Deur,H. Ding,P. A. M. Dolph,C. Dutta,Dipanwita Dutta,L. El Fassi,S. Frullani,Haiyan Gao,F. Garibaldi,D. Gaskell,Ronald Gilman,O. Glamazdin,S. Golge,L. Guo,David Hamilton,Olfred Hansen,Douglas Higinbotham,T. Holmstrom,M. Huang,H. F. Ibrahim,Mauro Iodice,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,Houbing Lu,D. J. Margaziotis,Pete Markowitz,S. Marrone,D. McNulty,Z. E. Meziani,R. Michaels,C. Munoz 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,Xin Qian,Yujie Qiang,Abdurahim Rakhman,Ronald Ransome,S. Riordan,A. Saha,B. Sawatzky,E. Schulte,A. Shahinyan,M. H. Shabestari,Simon Širca,S. Stepanyan,R. Subedi,L. G. Tang,William A. Tobias,G. M. Urciuoli,I. Vilardi,K. Wang,Bogdan Wojtsekhowski,Yingxiao Wang,X. Yan,H. Yao,Y. X. Ye,Z. Ye,L. Yuan,Y. Zhang,Yiyang Zhang,B. Zhao,X. Zheng,L. Y. Zhu,Xiaofeng Zhu,X. Zong,Kalyan Allada,William Bertozzi,Wouter Deconinck,Shalev Gilad,J. Huang,Bryan J. Moffit,Andrew Puckett,Vincent Sulkosky,X. Zhan +115 more
TL;DR: In this paper, Zhao et al. proposed a method to solve the problem of how to find the minimum number of neurons in a neural network, which is the smallest number needed to obtain a complete neural network.
Mechanical filter for alkali atoms
Dmitrij Toporkov,Bogdan Wojtsekhowski +1 more
- 20 Jan 1998
TL;DR: In this article, a spin exchange optical pumping is used to transfer photon angular momentum to target nuclei through spin-exchange collisions with polarized alkali-metal atoms, which dilutes the nucleon polarization in the target, because of there are a large number of unpolarized nucleons in the alkali nuclei.