Caractérisation des électrons dans l'expérience OPERA
Identifieur interne : 000403 ( Hal/Corpus ); précédent : 000402; suivant : 000404Caractérisation des électrons dans l'expérience OPERA
Auteurs : Yvan CaffariSource :
Descripteurs français
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Abstract
In 1998, the Super-Kamiokande experiment in Japan, using a water Cerenkov detector, had measured a deficit in the flux of the atmospheric neutrinos $\nu_{\mu}$ without observing an excess in the $\nu_{e}$ flux. This observation is explained by the neutrino oscillations, mechanism supposing that the neutrino mass is different from zero. In 1999, the CHOOZ experiment had excluded $\nu_{\mu}$$\to$$\nu_{e}$ oscillations in the atmospheric field. The OPERA experiment aims at prooving the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations by the appearance of the $\nu_{\tau}$ and $\nu_{\mu}$$\to$$\nu_{e}$ oscillations by the appearance of the $\nu_{e}$. As a consequence, a neutrino beam almost pure in $\nu_{\mu}$ is produced at CERN (CNGS Beam) and sent on the OPERA detector
located under the Gran Sasso mountain 732 km further, in Italy.
More than 200 000 bricks compose the OPERA detector (the target mass is about 1 800 tons). The bricks are a pile of lead plates and photographic emulsion films. This modular structure allows to reconstruct the kink topology with a high spatial resolution ($\delta$$\theta$$\sim$1 mrad and $\delta$r$\sim$1$\mu$m) produced by the charged lepton $\tau$ (from $\nu_{\tau}$ interaction with a lead nucleus) and his decay products.
This thesis aims at characterizing the electrons in the OPERA detector for the analysis of the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations (with $\tau$$\to$e) and the $\nu_{\mu}$$\to$$\nu_{e}$
channel, the $\nu_{e}$ interacting by CC and producing an electron.
located under the Gran Sasso mountain 732 km further, in Italy.
More than 200 000 bricks compose the OPERA detector (the target mass is about 1 800 tons). The bricks are a pile of lead plates and photographic emulsion films. This modular structure allows to reconstruct the kink topology with a high spatial resolution ($\delta$$\theta$$\sim$1 mrad and $\delta$r$\sim$1$\mu$m) produced by the charged lepton $\tau$ (from $\nu_{\tau}$ interaction with a lead nucleus) and his decay products.
This thesis aims at characterizing the electrons in the OPERA detector for the analysis of the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations (with $\tau$$\to$e) and the $\nu_{\mu}$$\to$$\nu_{e}$
channel, the $\nu_{e}$ interacting by CC and producing an electron.
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This observation is explained by the neutrino oscillations, mechanism supposing that the neutrino mass is different from zero. In 1999, the CHOOZ experiment had excluded $\nu_{\mu}$$\to$$\nu_{e}$ oscillations in the atmospheric field. The OPERA experiment aims at prooving the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations by the appearance of the $\nu_{\tau}$ and $\nu_{\mu}$$\to$$\nu_{e}$ oscillations by the appearance of the $\nu_{e}$. As a consequence, a neutrino beam almost pure in $\nu_{\mu}$ is produced at CERN (CNGS Beam) and sent on the OPERA detector
located under the Gran Sasso mountain 732 km further, in Italy.
More than 200 000 bricks compose the OPERA detector (the target mass is about 1 800 tons). The bricks are a pile of lead plates and photographic emulsion films. This modular structure allows to reconstruct the kink topology with a high spatial resolution ($\delta$$\theta$$\sim$1 mrad and $\delta$r$\sim$1$\mu$m) produced by the charged lepton $\tau$ (from $\nu_{\tau}$ interaction with a lead nucleus) and his decay products.
This thesis aims at characterizing the electrons in the OPERA detector for the analysis of the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations (with $\tau$$\to$e) and the $\nu_{\mu}$$\to$$\nu_{e}$
channel, the $\nu_{e}$ interacting by CC and producing an electron.</div></front></TEI><hal api="V3"><titleStmt><title xml:lang="fr">Caractérisation des électrons dans l'expérience OPERA</title><author role="aut"><persName><forename type="first">Yvan</forename><surname>Caffari</surname></persName><email></email><idno type="halauthor">170023</idno><affiliation ref="#struct-2"></affiliation></author><editor role="depositor"><persName><forename>Sylvie</forename><surname>Flores</surname></persName><email>s.flores@ipnl.in2p3.fr</email></editor></titleStmt><editionStmt><edition n="v1" type="current"><date type="whenSubmitted">2007-03-14 15:58:58</date><date type="whenModified">2007-03-14 16:47:48</date><date type="whenReleased">2007-03-14 16:47:48</date><date type="whenProduced">2006-09-15</date><date type="whenEndEmbargoed">2007-03-14</date><ref type="file" target="https://tel.archives-ouvertes.fr/tel-00136601/document"><date notBefore="2007-03-14"></date></ref><ref type="file" n="1" target="https://tel.archives-ouvertes.fr/tel-00136601/file/thesecaffari.pdf"><date notBefore="2007-03-14"></date></ref></edition><respStmt><resp>contributor</resp><name key="101408"><persName><forename>Sylvie</forename><surname>Flores</surname></persName><email>s.flores@ipnl.in2p3.fr</email></name></respStmt></editionStmt><publicationStmt><distributor>CCSD</distributor><idno type="halId">tel-00136601</idno><idno type="halUri">https://tel.archives-ouvertes.fr/tel-00136601</idno><idno type="halBibtex">caffari:tel-00136601</idno><idno type="halRefHtml">Cosmologie et astrophysique extra-galactique [astro-ph.CO]. Université Claude Bernard - Lyon I, 2006. Français</idno><idno type="halRef">Cosmologie et astrophysique extra-galactique [astro-ph.CO]. Université Claude Bernard - Lyon I, 2006. Français</idno></publicationStmt><seriesStmt><idno type="stamp" n="IPNL">Institut de Physique Nucléaire de Lyon</idno><idno type="stamp" n="CNRS">CNRS - Centre national de la recherche scientifique</idno><idno type="stamp" n="UNIV-LYON1">Université Claude Bernard - Lyon I</idno><idno type="stamp" n="IN2P3">Institut National de Physique Nucléaire et de Physique des Particules</idno></seriesStmt><notesStmt><note type="commentary">Neutrinos</note></notesStmt><sourceDesc><biblStruct><analytic><title xml:lang="fr">Caractérisation des électrons dans l'expérience OPERA</title><author role="aut"><persName><forename type="first">Yvan</forename><surname>Caffari</surname></persName><idno type="halAuthorId">170023</idno><affiliation ref="#struct-2"></affiliation></author></analytic><monogr><idno type="localRef">LYCEN - T 2006-25</idno><imprint><date type="dateDefended">2006-09-15</date></imprint><authority type="institution">Université Claude Bernard - Lyon I</authority><authority type="school">Physique</authority><authority type="supervisor">Lionel Chaussard(l.chaussard@ipnl.in2p3.fr)</authority><authority type="jury">J. Dumarchez (rapporteur)</authority><authority type="jury">A. Deandrea (président du jury)</authority><authority type="jury">C. Hagner</authority><authority type="jury">J.-L. Vuilleumier (rapporteur)</authority></monogr></biblStruct></sourceDesc><profileDesc><langUsage><language ident="fr">French</language></langUsage><textClass><keywords scheme="author"><term xml:lang="fr">oscillation</term><term xml:lang="fr">identification des électrons</term><term xml:lang="fr">réseau de neurones</term><term xml:lang="fr">mesure de l'énergie</term><term xml:lang="fr">gerbe électromagnétique</term><term xml:lang="fr">theta 13</term><term xml:lang="fr">OPERA</term><term xml:lang="fr">T2K</term></keywords><classCode scheme="halDomain" n="phys.astr.co">Physics [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO]</classCode><classCode scheme="halTypology" n="THESE">Theses</classCode></textClass><abstract xml:lang="en">In 1998, the Super-Kamiokande experiment in Japan, using a water Cerenkov detector, had measured a deficit in the flux of the atmospheric neutrinos $\nu_{\mu}$ without observing an excess in the $\nu_{e}$ flux. This observation is explained by the neutrino oscillations, mechanism supposing that the neutrino mass is different from zero. In 1999, the CHOOZ experiment had excluded $\nu_{\mu}$$\to$$\nu_{e}$ oscillations in the atmospheric field. The OPERA experiment aims at prooving the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations by the appearance of the $\nu_{\tau}$ and $\nu_{\mu}$$\to$$\nu_{e}$ oscillations by the appearance of the $\nu_{e}$. As a consequence, a neutrino beam almost pure in $\nu_{\mu}$ is produced at CERN (CNGS Beam) and sent on the OPERA detector
located under the Gran Sasso mountain 732 km further, in Italy.
More than 200 000 bricks compose the OPERA detector (the target mass is about 1 800 tons). The bricks are a pile of lead plates and photographic emulsion films. This modular structure allows to reconstruct the kink topology with a high spatial resolution ($\delta$$\theta$$\sim$1 mrad and $\delta$r$\sim$1$\mu$m) produced by the charged lepton $\tau$ (from $\nu_{\tau}$ interaction with a lead nucleus) and his decay products.
This thesis aims at characterizing the electrons in the OPERA detector for the analysis of the $\nu_{\mu}$$\to$$\nu_{\tau}$ oscillations (with $\tau$$\to$e) and the $\nu_{\mu}$$\to$$\nu_{e}$
channel, the $\nu_{e}$ interacting by CC and producing an electron.</abstract><abstract xml:lang="fr">En 1998, l'expérience Super-Kamiokande au Japon, utilisant un détecteur Cherenkov à eau, a mesuré un déficit dans le flux des neutrinos atmosphériques $\nu_{\mu}$ sans observer d'excès dans le flux des $\nu_{e}$. Ce phénomène est expliqué en invoquant les oscillations neutrino, mécanisme qui suppose que le neutrino possède une masse non-nulle. En 1999, l'expérience CHOOZ a totalement exclu les oscillations $\nu_{\mu}$$\to$$\nu_{e}$ dans le domaine atmosphérique. L'expérience OPERA propose alors de mettre en évidence les oscillations $\nu_{\mu}$$\to$$\nu_{\tau}$ par apparition du $\nu_{\tau}$ et les oscillations $\nu_{\mu}$$\to$$\nu_{e}$ par apparition des $\nu_{e}$ à partir d'un faisceau presque pur de neutrinos muoniques. Ce faisceau est produit au CERN (faisceau CNGS), en Suisse, puis dirigé sur le détecteur OPERA situé 732 km plus loin sous la montagne du Gran Sasso, en Italie. Le détecteur est composé de plus de 200 000 briques (soit une masse totale de 1800 tonnes) constituées d'une alternance de feuilles d'émulsions nucléaires et de feuilles de plomb. Cette structure modulaire permet de reconstruire avec une haute résolution spatiale ($\delta$$\theta$$\sim$1 mrad et $\delta$r$\sim$1$\mu$m) la topologie en coude créée par le lepton $\tau$ (issu de l'interaction par courant chargé d'un $\nu_{\tau}$ avec un noyau de plomb) et ses produits de désintégration.
Le travail de thèse consiste en la caractérisation des électrons pour l'étude des oscillations $\nu_{\mu}$$\to$$\nu_{\tau}$, avec $\tau$$\to$e et les oscillations $\nu_{\mu}$$\to$$\nu_{e}$, le $\nu_{e}$ , interagissant par courant chargé avec un noyau de plomb et produisant un électron.
Un algorithme de reconstruction de cascades électromagnétiques se développant dans des émulsions nucléaires a été réalisé. Cet algorithme permet de reproduire les profils transversaux et longitudinaux utiles pour l'évaluation de l'énergie des électrons et leur identification (séparation $\pi$/e) à partir d'un réseau de neurones. La résolution en énergie trouvée vaut $\frac{34.6%}{\sqrt{E(GeV)}}$ et la probabilité d'identification atteint 95$%$. Les premiers résultats semblent indiquer un accord correct entre des données expérimentales issues d'un test en faisceau et des simulations Monte-Carlo.
Enfin une étude sur la complémentarité entre les expériences OPERA et T2K a été effectuée pour évaluer leur potentiel de découverte sur le paramètre d'oscillation $\theta_{13}$ et la phase de violation CP $\delta_{CP}$.</abstract><particDesc><org type="consortium">OPERA</org></particDesc></profileDesc></hal></record>Pour manipuler ce document sous Unix (Dilib)
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