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Analysis of the Semileptonic Decay D0 {u2192} $\bar{K}$0 ?-?+v

$Analysis of the Semileptonic Decay D0 {u2192} $\bar{K}$0 ?-?+v PDF$ Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 175

Book Description
This thesis describes the analysis of the semileptonic decay D0 → $ar{K}$0 ?-?+v using FOCUS data. FOCUS is a fixed target experiment at Fermilab that studies the physics of the charm quark. Particles containing charm are produced by photon-gluon fusion from the collision of a photon beam on a BeO target. The experiment is characterized by excellent vertex resolution and particle identification. The spectrometer consists of three systems for track reconstruction (two silicon systems and one multiwire proportional chamber system) and two magnets of opposite polarity. The polarity of the magnet is such that the events of e+e- pairs produced in the target (which constitutes the main background) travel through a central opening in the detectors without interactions. Particle momentum is measured from the deflection angle in the magnets. Three multicell Cerenkov counters are used for charged particle identification (for e, ?, K, and p). Two different tracking systems located after several interaction lengths of shielding material are used for muon identification. The energy of neutral pions and electrons is measured in two electromagnetic calorimeters, while an hadron calorimeter is used for measuring the neutron energy. During the last four years the FOCUS collaboration provided results on several charm topics: CP violation, D0-$ar{D}$0 mixing, rare and forbidden decays, precision measurements of semileptonic decays, baryon and meson lifetimes, fully hadronic baryon and meson branching ratios, charm spectroscopy, Dalitz analyses of resonant structures, charm anti-charm production, QCD studies involving double charm particles, and pentaquarks. Semileptonic decays, besides having a clear signature for experiments, provide crucial information for theoretical studies. These decays carry information on the weak coupling of quarks since they can be used for measuring Cabibbo-Kobayashi-Maskawa matrix elements. Although the decay occurs through weak interaction, QCD effects due to quark confinement affect the decay amplitude. These effects can be included through the form factors, which are predicted by different theoretical approaches (quark models, lattice QCD, and sum rules). Experiments can measure form factor ratios, and from the comparison with theory they provide guidance for building a successful theory to describe hadrons.

Analysis of the Semileptonic Decay D0 {u2192} $\bar{K}$0 ?-?+v

$Analysis of the Semileptonic Decay D0 {u2192} $\bar{K}$0 ?-?+v PDF$ Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 175

Analysis of the Semileptonic Decay D0 -> K̄0[pi]-[mu]+[nu]

Author: Ilaria Maria Lucia Segoni
Publisher:
ISBN:
Category :
Languages : en
Pages : 316

Book Description

Analysis of the Charmed Semileptonic Decay D+{u2192} ?0 ?+ V

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 144

Book Description
The search for the fundamental constituents of matter has been pursued and studied since the dawn of civilization. As early as the fourth century BCE, Democritus, expanding the teachings of Leucippus, proposed small, indivisible entities called atoms, interacting with each other to form the Universe. Democritus was convinced of this by observing the environment around him. He observed, for example, how a collection of tiny grains of sand can make out smooth beaches. Today, following the lead set by Democritus more than 2500 years ago, at the heart of particle physics is the hypothesis that everything we can observe in the Universe is made of a small number of fundamental particles interacting with each other. In contrast to Democritus, for the last hundred years we have been able to perform experiments that probe deeper and deeper into matter in the search for the fundamental particles of nature. Today's knowledge is encapsulated in the Standard Model of particle physics, a model describing the fundamental particles and their interactions. It is within this model that the work in this thesis is presented. This work attempts to add to the understanding of the Standard Model by measuring the relative branching fraction of the charmed semileptonic decay D+ → ?0?+v with respect to D+ → $ar{K}$*0?+v. Many theoretical models that describe hadronic interactions predict the value of this relative branching fraction, but only a handful of experiments have been able to measure it with any precision. By making a precise measurement of this relative branching fraction theorists can distinguish between viable models as well as refine existing ones. In this thesis we presented the measurement of the branching fraction ratio of the Cabibbo suppressed semileptonic decay mode D+ → ?0?+v with respect to the Cabibbo favored mode D+ → $ar{K}$*0 ?+v using data collected by the FOCUS collaboration. We used a binned maximum log-likelihood fit that included all known semileptonic backgrounds as well as combinatorial and muonmisidentification backgrounds to extract the yields for both the signal and normalization modes. We reconstructed 320 ± 44 D+ → ?0?+v events and 11372 ± 161 D+ → K-?+?+v events. Taking into account the non-resonant contribution to the D+ → K-?+?+v yield due to a s-wave interference first measured by FOCUS the branching fraction ratio is: ?(D+ → ?0?+v) = 0.0412 ± 0.0057 ± 0.0040 (VII.1) where the first error is statistical and the second error is the systematic uncertainty. This represents a substantial improvement over the previous world average. More importantly, the new world average for ?(D+→0?+v)/?(D+→$ar{K}$*0?+v) along with the improved measurements in the electronic mode can be used to discriminate among different theoretical approaches that aim to understand the hadronic current involved in the charm to light quark decay process. The average of the electronic and muonic modes indicate that predictions for the partial decay width ?(D+ → ?0l+v) and the ratio ?(D+→?0l+v)/?(D+→$ar{K}$*0l+v) based on Sum Rules are too low. Using the same data used to extract ?(D+→?0?+v)/?(D+→$ar{K}$*0?+v) we studied the feasibility of measuring the form factors for the D+ → ?0?+v decay. We found that the need to further reduce the combinatorial and muon misidentification backgrounds left us with a much smaller sample of 52 ± 12 D+ → ?0?+? events; not enough to...

Analysis of Semileptonic Decays of B Mesons and D Mesons

Author: Kenneth Arthur Bloom
Publisher:
ISBN:
Category :
Languages : en
Pages : 584

Book Description

A Study of the Semileptonic Decay Mode D°. --]. K−enu

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :

Book Description
We present an analysis of the exclusive semileptonic decay mode D° .-->. K−enu/sub e/. We have measured the ratio of decay rates GAMMA(D° .-->. K−enu/sub e/)/GAMMA(D° .-->. K−.pi./sup +/). After correcting for the reconstruction efficiencies and subtracting the contribution from other decay modes we have found the ratio to be equal to 0.77 +- 0.12(stat) +- 0.13(syst).

Analysis of the Charmed Semileptonic Decay D^+ -] Rho^0 Mu^+ Nu

Author: Eduardo E. Luiggi
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 133

Book Description

Analysis of the Semileptonic Decay D0 --] Anti-K0 Pi- Mu+ Nu

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :

Book Description
This thesis describes the analysis of the semileptonic decay D[sup 0] [yields] [bar K][sup 0] [pi][sup -] [mu][sup +] [nu] using FOCUS data. FOCUS is a fixed target experiment at Fermilab that studies the physics of the charm quark. Particles containing charm are produced by photon--gluon fusion from the collision of a photon beam on a BeO target. The experiment is characterized by excellent vertex resolution and particle identification. The spectrometer consists of three systems for track reconstruction (two silicon systems and one multiwire proportional chamber system) and two magnets of opposite polarity. The polarity of the magnet is such that the events of e[sup +]e[sup -] pairs produced in the target (which constitutes the main background) travel through a central opening in the detectors without interactions. Particle momentum is measured from the deflection angle in the magnets. Three multi-cell Cerenkov counters are used for charged particle identification (for e, [pi], K, and p). Two different tracking systems located after several interaction lengths of shielding material are used for muon identification. The energy of neutral pions and electrons is measured in two electromagnetic calorimeters, while an hadron calorimeter is used for measuring the neutron energy.

Analysis of the Charmed Semileptonic Decay D+2![rho]0 [mu]+ V

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 144

Book Description
The search for the fundamental constituents of matter has been pursued and studied since the dawn of civilization. As early as the fourth century BCE, Democritus, expanding the teachings of Leucippus, proposed small, indivisible entities called atoms, interacting with each other to form the Universe. Democritus was convinced of this by observing the environment around him. He observed, for example, how a collection of tiny grains of sand can make out smooth beaches. Today, following the lead set by Democritus more than 2500 years ago, at the heart of particle physics is the hypothesis that everything we can observe in the Universe is made of a small number of fundamental particles interacting with each other. In contrast to Democritus, for the last hundred years we have been able to perform experiments that probe deeper and deeper into matter in the search for the fundamental particles of nature. Today's knowledge is encapsulated in the Standard Model of particle physics, a model describing the fundamental particles and their interactions. It is within this model that the work in this thesis is presented. This work attempts to add to the understanding of the Standard Model by measuring the relative branching fraction of the charmed semileptonic decay D+ 2![rho]0[mu]+v with respect to D+ 2!$\bar{K}$*0[mu]+v. Many theoretical models that describe hadronic interactions predict the value of this relative branching fraction, but only a handful of experiments have been able to measure it with any precision. By making a precise measurement of this relative branching fraction theorists can distinguish between viable models as well as refine existing ones. In this thesis we presented the measurement of the branching fraction ratio of the Cabibbo suppressed semileptonic decay mode D+ 2![rho]0[mu]+v with respect to the Cabibbo favored mode D+ 2!$\bar{K}$*0 [mu]+v using data collected by the FOCUS collaboration. We used a binned maximum log-likelihood fit that included all known semileptonic backgrounds as well as combinatorial and muonmisidentification backgrounds to extract the yields for both the signal and normalization modes. We reconstructed 320 ± 44 D+ 2![rho]0[mu]+v events and 11372 ± 161 D+ 2!K-[pi]+[mu]+v events. Taking into account the non-resonant contribution to the D+ 2!K-[pi]+[mu]+v yield due to a s-wave interference first measured by FOCUS the branching fraction ratio is: [Gamma](D+ 2![rho]0[mu]+v) = 0.0412 ± 0.0057 ± 0.0040 (VII. 1) where the first error is statistical and the second error is the systematic uncertainty. This represents a substantial improvement over the previous world average. More importantly, the new world average for [Gamma](D+2![mu]+v)/[Gamma](D+2!\bar{K}$*0[mu]+v) along with the improved measurements in the electronic mode can be used to discriminate among different theoretical approaches that aim to understand the hadronic current involved in the charm to light quark decay process. The average of the electronic and muonic modes indicate that predictions for the partial decay width [Gamma](D+ 2![rho]0l+v) and the ratio [Gamma](D+2!rho]0l+v)/[Gamma](D+2!\bar{K}$*0l+v) based on Sum Rules are too low. Using the same data used to extract [Gamma](D+2!rho]0[mu]+v)/[Gamma](D+2!\bar{K}$*0[mu]+v) we studied the feasibility of measuring the form factors for the D+ 2![rho]0[mu]+v decay. We found that the need to further reduce the combinatorial and muon misidentification backgrounds left us with a much smaller sample of 52 ± 12 D+ 2![rho]0[mu]+[mu] events; not enough to ...

Determination of V Cb from the Semileptonic Decay [Beta] O → D * + [lambda] - [ny]

Author: BELLE
Publisher:
ISBN:
Category :
Languages : en
Pages : 11

Book Description

Inclusive Semileptonic B Decays at BABAR.

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :

Book Description
The authors report updates on two analyses of inclusive semileptonic B decays based on a dataset of 89 million B[bar B] events recorded with the BABAR detector at the [Upsilon](4S) resonance. Events are selected by fully reconstructing the decay of one B meson and identifying a charged lepton from the decay of the other [bar B] meson. IN the first analysis, the measurement of the first and second moment of the hadronic mass distribution in Cabibbo-favored [bar B] [yields] X[sub c][ell][bar [nu]] decays allows for the determination of the nonperturbative parameters [bar [Lambda]] and [lambda][sub 1] of Heavy Quark Effective Theory (HQET) and V[sub cb]. In the second analysis, the hadronic mass distribution is used to measure the inclusive charmless semileptonic branching fraction and to determine V[sub ub].