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Using 55.8 pb(-1) of e(+)e(-) collisions recorded at the psi(3770) resonance with the CLEO-c detector at CESR, we determine absolute hadronic branching fractions of charged and neutral D mesons using a double tag technique. Among measurements for three D-0 and six D+ modes, we obtain reference branching fractions B(D-0- K(-)pi(+))=(3.91 +/- 0.08 +/- 0.09)% and B(D+- K(-)pi(+)pi(+))=(9.5. Mac OS X & macOS names. As you can see from the list above, with the exception of the first OS X beta, all versions of the Mac operating system from 2001 to 2012 were all named after big cats.
Department of Physics and Astronomy Faculty Publications
Title
Authors
Published in:
Physical Review D 76,11 (2007)
Link to original published article:
http://dx.doi.org/10.1103/PhysRevD.76.112001
Abstract
Using 281 pb(-1) of e(+)e(-) collisions recorded at the psi(3770) resonance with the CLEO-c detector at CESR (Cornell Electron Storage Ring), we determine absolute hadronic branching fractions of charged and neutral D mesons using a double tag technique. Among measurements for three D-0 and six D+ modes, we obtain reference branching fractions B(D-0 -> K-pi(+))=(3.891 +/- 0.035 +/- 0.059 +/- 0.035)% and B(D+-> K-pi(+)pi(+))=(9.14 +/- 0.10 +/- 0.16 +/- 0.07)%, where the first uncertainty is statistical, the second is all systematic errors other than final-state radiation (FSR), and the third is the systematic uncertainty due to FSR. We include FSR in these branching fractions by allowing for additional unobserved photons in the final state. Using an independent determination of the integrated luminosity, we also extract the cross sections sigma(e(+)e(-)-> D-0(D) over bar (0))=(3.66 +/- 0.03 +/- 0.06) nb and sigma(e(+)e(-)-> D+D-)=(2.91 +/- 0.03 +/- 0.05) nb at a center-of-mass energy, E-cm=3774 +/- 1 MeV.
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Keywords
Astronomy & Astrophysics;; Physics, Particles & Fields
Date of this Version
January 2007
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University Distinguished Professor and MSU Associate Vice President for Administrative Services
Nuclear Physics - Theoretical; Physics Education & Outreach
Hannah Administration Building
426 Auditorium Rd., Room 412L
(517) 432-4762
NSCL Office 2059
(517) 908-7326
bauerw@msu.edu
https://www.pa.msu.edu/people/bauer/
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Selected Publications
Want to Reduce Guessing and Cheating While Making Students Happier? Give More Exams!https://computergoo942.weebly.com/pubg-for-free-no-download.html. , J. Laverty, G. Kortemeyer, W. Bauer, and G.D. Westfall, Phys. Teach. 50, 464-467 (2012)
Modeling Nuclear Dynamics and Weak Interaction Rates During the Supernova Collapse Phase, T. Strother and W. Bauer, Prog. Part. Nucl. Phys. 468 (2009)
Fragmentation and the Nuclear Equation of State, W. Bauer, Nucl. Phys. A787, 595c (2007)
How to raid ck2. Zipf's Law in Nuclear Multifragmentation and Percolation Theory, K. Paech, W. Bauer, and S. Pratt, Phys. Rev. C 76, 054603 (2007)
Cancer Detection on a Cell-by-Cell Basis Using a Fractal Dimension Analysis, W. Bauer and Ch.D. Mackenzie, Heavy Ion Physics 14, 39 (2001)
Common Aspects of Phase Transitions of Molecules, Nuclei, and Hadronic Matter, W. Bauer, Nucl. Lucky creek casino no deposit codes. Phys. A681, 441 (2001)
Professional Activities & Interests / Biographical Information
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Lovely outlaws slot machine. I am a theoretical physicist and work mainly on phase transitions in nuclear systems, on transport theory for heavy ion collisions, and on the determination of the nuclear equation of state. Much of my work is in close connection with experimentally accessible observables, and I have enjoyed many collaborations with my experimental colleagues from NSCL and around the world. Approximately one half of my roughly 120 publications in peer-reviewed journals are collaborations with experimentalists.
During the last few years I have found out that many advances in one particular field of science can be applied in an interdisciplinary way. One example is my application of algorithms developed in my work on nuclear fragmentation to the detection of cancer cells in human bodies. Another example is the application of our methods to solve the transport problem for heavy ion collisions to the dynamics of supernova explosions. This project is still ongoing and first results look very promising.
I have also worked on chaos, non-linear dynamics, and self-organized criticality. All of these areas of study have applications to nuclear physics, but also to a great range of other systems, from molecules to traffic flow, and from the stock market to the weather.
Hadronic Mac OS