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Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target
We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q^2<30\,~\mbox{GeV}^2$. {}From this result we derive the upper limits...
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| Lenguaje: | eng |
| Publicado: |
1994
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/0370-2693(94)00968-6 http://cds.cern.ch/record/266991 |
| _version_ | 1780886727179632640 |
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| author | Adams, D. Adeva, B. Arik, E. Arvidson, A. Badelek, B. Ballintijn, M.K. Bardin, G. Baum, G. Berglund, P. Betev, L. Bird, I.G. Birsa, R. Björkholm, P. Bonner, B.E. de Botton, N. Bradamante, F. Bressan, A. Brüll, A. Bültmann, S. Burtin, E. Cavata, C. Clocchiatti, M. Corcoran, M.D. Crabb, D. Cranshaw, J. Crawford, M. Çuhadar, T. Dalla Torre, S. van Dantzig, R. Dhawan, S. Dulya, C. Dyring, A. Eichblatt, S. Faivre, J.C. Fasching, D. Feinstein, F. Fernandez, C. Frois, B. Garzon, J.A. Gaussiran, T. Giorgi, M. von Goeler, E. Gracia, G. de Groot, N. Grosse Perdekamp, M. Gülmez, E. von Harrach, D. Hasegawa, T. Hautle, P. Hayashi, N. Heusch, C.A. Horikawa, N. Hughes, V.W. Igo, G. Ishimoto, S. Iwata, T. Kabuβ, E.M. Kaiser, R. Karev, A. Kessler, H.J. Ketel, T.J. Kishi, A. Kisselev, Yu. Klostermann, L. Krämer, D. Krivokhijine, V. Kukhtin, V. Kyynäräinen, J. Lamanna, M. Landgraf, U. Lau, K. Layda, T. Le Goff, J.M. Lehar, F. de Lesquen, A. Lichtenstadt, J. Lindqvist, T. Litmaath, M. Lopez-Ponte, S. Lowe, M. Magnon, A. Mallot, G.K. Marie, F. Martin, A. Martino, J. Matsuda, T. Mayes, B. McCarthy, J.S. Medved, K. van Middelkoop, G. Miller, D. Mori, K. Moromisato, J. Nagaitsev, A. Nassalski, J. Naumann, L. Niinikoski, T.O. Oberski, J.E.J. Parks, D.P. Penzo, A. Perez, C. Perrot-Kunne, F. Peshekhonov, D. Piegaia, R. Pinsky, L. Platchkov, S. Plo, M. Pose, D. Postma, H. Pretz, J. Pussieux, T. Pyrlik, J. Reyhancan, I. Rieubland, J.M. Rijllart, A. Roberts, J.B. Rock, S. Rodriguez, M. Rondio, E. Rosado, A. Sabo, I. Saborido, J. Sandacz, A. Savin, I. Schiavon, P. Schüler, K.P. Segel, R. Seitz, R. Semertzidis, Y. Sever, F. Shanahan, P. Shumeiko, N. Smirnov, G. Staude, A. Steinmetz, A. Stiegler, U. Stuhrmann, H. Teichert, K.M. Tessarotto, F. Velasco, M. Vogt, J. Voss, R. Weinstein, R. Whitten, C. Windmolders, R. Willumeit, R. Wislicki, W. Witzmann, A. Zanetti, A.M. Zhao, J. |
| author_facet | Adams, D. Adeva, B. Arik, E. Arvidson, A. Badelek, B. Ballintijn, M.K. Bardin, G. Baum, G. Berglund, P. Betev, L. Bird, I.G. Birsa, R. Björkholm, P. Bonner, B.E. de Botton, N. Bradamante, F. Bressan, A. Brüll, A. Bültmann, S. Burtin, E. Cavata, C. Clocchiatti, M. Corcoran, M.D. Crabb, D. Cranshaw, J. Crawford, M. Çuhadar, T. Dalla Torre, S. van Dantzig, R. Dhawan, S. Dulya, C. Dyring, A. Eichblatt, S. Faivre, J.C. Fasching, D. Feinstein, F. Fernandez, C. Frois, B. Garzon, J.A. Gaussiran, T. Giorgi, M. von Goeler, E. Gracia, G. de Groot, N. Grosse Perdekamp, M. Gülmez, E. von Harrach, D. Hasegawa, T. Hautle, P. Hayashi, N. Heusch, C.A. Horikawa, N. Hughes, V.W. Igo, G. Ishimoto, S. Iwata, T. Kabuβ, E.M. Kaiser, R. Karev, A. Kessler, H.J. Ketel, T.J. Kishi, A. Kisselev, Yu. Klostermann, L. Krämer, D. Krivokhijine, V. Kukhtin, V. Kyynäräinen, J. Lamanna, M. Landgraf, U. Lau, K. Layda, T. Le Goff, J.M. Lehar, F. de Lesquen, A. Lichtenstadt, J. Lindqvist, T. Litmaath, M. Lopez-Ponte, S. Lowe, M. Magnon, A. Mallot, G.K. Marie, F. Martin, A. Martino, J. Matsuda, T. Mayes, B. McCarthy, J.S. Medved, K. van Middelkoop, G. Miller, D. Mori, K. Moromisato, J. Nagaitsev, A. Nassalski, J. Naumann, L. Niinikoski, T.O. Oberski, J.E.J. Parks, D.P. Penzo, A. Perez, C. Perrot-Kunne, F. Peshekhonov, D. Piegaia, R. Pinsky, L. Platchkov, S. Plo, M. Pose, D. Postma, H. Pretz, J. Pussieux, T. Pyrlik, J. Reyhancan, I. Rieubland, J.M. Rijllart, A. Roberts, J.B. Rock, S. Rodriguez, M. Rondio, E. Rosado, A. Sabo, I. Saborido, J. Sandacz, A. Savin, I. Schiavon, P. Schüler, K.P. Segel, R. Seitz, R. Semertzidis, Y. Sever, F. Shanahan, P. Shumeiko, N. Smirnov, G. Staude, A. Steinmetz, A. Stiegler, U. Stuhrmann, H. Teichert, K.M. Tessarotto, F. Velasco, M. Vogt, J. Voss, R. Weinstein, R. Whitten, C. Windmolders, R. Willumeit, R. Wislicki, W. Witzmann, A. Zanetti, A.M. Zhao, J. |
| author_sort | Adams, D. |
| collection | CERN |
| description | We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q^2<30\,~\mbox{GeV}^2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$. |
| id | cern-266991 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1994 |
| record_format | invenio |
| spelling | cern-2669912023-03-14T19:28:32Zdoi:10.1016/0370-2693(94)00968-6http://cds.cern.ch/record/266991engAdams, D.Adeva, B.Arik, E.Arvidson, A.Badelek, B.Ballintijn, M.K.Bardin, G.Baum, G.Berglund, P.Betev, L.Bird, I.G.Birsa, R.Björkholm, P.Bonner, B.E.de Botton, N.Bradamante, F.Bressan, A.Brüll, A.Bültmann, S.Burtin, E.Cavata, C.Clocchiatti, M.Corcoran, M.D.Crabb, D.Cranshaw, J.Crawford, M.Çuhadar, T.Dalla Torre, S.van Dantzig, R.Dhawan, S.Dulya, C.Dyring, A.Eichblatt, S.Faivre, J.C.Fasching, D.Feinstein, F.Fernandez, C.Frois, B.Garzon, J.A.Gaussiran, T.Giorgi, M.von Goeler, E.Gracia, G.de Groot, N.Grosse Perdekamp, M.Gülmez, E.von Harrach, D.Hasegawa, T.Hautle, P.Hayashi, N.Heusch, C.A.Horikawa, N.Hughes, V.W.Igo, G.Ishimoto, S.Iwata, T.Kabuβ, E.M.Kaiser, R.Karev, A.Kessler, H.J.Ketel, T.J.Kishi, A.Kisselev, Yu.Klostermann, L.Krämer, D.Krivokhijine, V.Kukhtin, V.Kyynäräinen, J.Lamanna, M.Landgraf, U.Lau, K.Layda, T.Le Goff, J.M.Lehar, F.de Lesquen, A.Lichtenstadt, J.Lindqvist, T.Litmaath, M.Lopez-Ponte, S.Lowe, M.Magnon, A.Mallot, G.K.Marie, F.Martin, A.Martino, J.Matsuda, T.Mayes, B.McCarthy, J.S.Medved, K.van Middelkoop, G.Miller, D.Mori, K.Moromisato, J.Nagaitsev, A.Nassalski, J.Naumann, L.Niinikoski, T.O.Oberski, J.E.J.Parks, D.P.Penzo, A.Perez, C.Perrot-Kunne, F.Peshekhonov, D.Piegaia, R.Pinsky, L.Platchkov, S.Plo, M.Pose, D.Postma, H.Pretz, J.Pussieux, T.Pyrlik, J.Reyhancan, I.Rieubland, J.M.Rijllart, A.Roberts, J.B.Rock, S.Rodriguez, M.Rondio, E.Rosado, A.Sabo, I.Saborido, J.Sandacz, A.Savin, I.Schiavon, P.Schüler, K.P.Segel, R.Seitz, R.Semertzidis, Y.Sever, F.Shanahan, P.Shumeiko, N.Smirnov, G.Staude, A.Steinmetz, A.Stiegler, U.Stuhrmann, H.Teichert, K.M.Tessarotto, F.Velasco, M.Vogt, J.Voss, R.Weinstein, R.Whitten, C.Windmolders, R.Willumeit, R.Wislicki, W.Witzmann, A.Zanetti, A.M.Zhao, J.Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized targetParticle Physics - ExperimentWe measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q^2<30\,~\mbox{GeV}^2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range $0.006<x<0.6$, $1<Q~2<30\,\mbox{GeV}~2$. {}From this result we derive the upper limits for the virtual photon--proton asymmetry $A_2$, and for the spin structure function $g_2$. For $x<0.15$, $A_2$ is significantly smaller than its positivity limit $\sqrt{R}$.We measured the spin asymmetry in the scattering of 100 GeV longitudinally-polarized muons on transversely polarized protons. The asymmetry was found to be compatible with zero in the kinematic range 0.006 < x < 0.6, 1 < Q 2 < 30GeV 2 . From this result we derive the upper limits for the virtual photon-proton asymmetry A 2 , and for the spin structure function g 2 . For x < 0.15, A 2 is significantly smaller than its positivity limit √R .hep-ex/9408001CERN-PPE-94-116CERN-PPE-94-116oai:cds.cern.ch:2669911994-08-07 |
| spellingShingle | Particle Physics - Experiment Adams, D. Adeva, B. Arik, E. Arvidson, A. Badelek, B. Ballintijn, M.K. Bardin, G. Baum, G. Berglund, P. Betev, L. Bird, I.G. Birsa, R. Björkholm, P. Bonner, B.E. de Botton, N. Bradamante, F. Bressan, A. Brüll, A. Bültmann, S. Burtin, E. Cavata, C. Clocchiatti, M. Corcoran, M.D. Crabb, D. Cranshaw, J. Crawford, M. Çuhadar, T. Dalla Torre, S. van Dantzig, R. Dhawan, S. Dulya, C. Dyring, A. Eichblatt, S. Faivre, J.C. Fasching, D. Feinstein, F. Fernandez, C. Frois, B. Garzon, J.A. Gaussiran, T. Giorgi, M. von Goeler, E. Gracia, G. de Groot, N. Grosse Perdekamp, M. Gülmez, E. von Harrach, D. Hasegawa, T. Hautle, P. Hayashi, N. Heusch, C.A. Horikawa, N. Hughes, V.W. Igo, G. Ishimoto, S. Iwata, T. Kabuβ, E.M. Kaiser, R. Karev, A. Kessler, H.J. Ketel, T.J. Kishi, A. Kisselev, Yu. Klostermann, L. Krämer, D. Krivokhijine, V. Kukhtin, V. Kyynäräinen, J. Lamanna, M. Landgraf, U. Lau, K. Layda, T. Le Goff, J.M. Lehar, F. de Lesquen, A. Lichtenstadt, J. Lindqvist, T. Litmaath, M. Lopez-Ponte, S. Lowe, M. Magnon, A. Mallot, G.K. Marie, F. Martin, A. Martino, J. Matsuda, T. Mayes, B. McCarthy, J.S. Medved, K. van Middelkoop, G. Miller, D. Mori, K. Moromisato, J. Nagaitsev, A. Nassalski, J. Naumann, L. Niinikoski, T.O. Oberski, J.E.J. Parks, D.P. Penzo, A. Perez, C. Perrot-Kunne, F. Peshekhonov, D. Piegaia, R. Pinsky, L. Platchkov, S. Plo, M. Pose, D. Postma, H. Pretz, J. Pussieux, T. Pyrlik, J. Reyhancan, I. Rieubland, J.M. Rijllart, A. Roberts, J.B. Rock, S. Rodriguez, M. Rondio, E. Rosado, A. Sabo, I. Saborido, J. Sandacz, A. Savin, I. Schiavon, P. Schüler, K.P. Segel, R. Seitz, R. Semertzidis, Y. Sever, F. Shanahan, P. Shumeiko, N. Smirnov, G. Staude, A. Steinmetz, A. Stiegler, U. Stuhrmann, H. Teichert, K.M. Tessarotto, F. Velasco, M. Vogt, J. Voss, R. Weinstein, R. Whitten, C. Windmolders, R. Willumeit, R. Wislicki, W. Witzmann, A. Zanetti, A.M. Zhao, J. Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| title | Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| title_full | Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| title_fullStr | Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| title_full_unstemmed | Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| title_short | Spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| title_sort | spin asymmetry in muon-proton deep inelastic scattering on a transversely-polarized target |
| topic | Particle Physics - Experiment |
| url | https://dx.doi.org/10.1016/0370-2693(94)00968-6 http://cds.cern.ch/record/266991 |
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naumannl spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT niinikoskito spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT oberskijej spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT parksdp spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT penzoa spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT perezc spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT perrotkunnef spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT peshekhonovd spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT piegaiar spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT pinskyl spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT platchkovs spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT plom spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT posed spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT postmah spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT pretzj spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT pussieuxt spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT pyrlikj spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT reyhancani spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT rieublandjm spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT rijllarta spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT robertsjb spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT rocks spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT rodriguezm spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT rondioe spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT rosadoa spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT saboi spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT saboridoj spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT sandacza spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT savini spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT schiavonp spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT schulerkp spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT segelr spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT seitzr spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT semertzidisy spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT severf spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT shanahanp spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT shumeikon spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT smirnovg spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT staudea spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT steinmetza spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT stiegleru spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT stuhrmannh spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT teichertkm spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT tessarottof spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT velascom spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT vogtj spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT vossr spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT weinsteinr spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT whittenc spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT windmoldersr spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT willumeitr spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT wislickiw spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT witzmanna spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT zanettiam spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget AT zhaoj spinasymmetryinmuonprotondeepinelasticscatteringonatransverselypolarizedtarget |