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Institution

Technical University of Dortmund

EducationDortmund, Nordrhein-Westfalen, Germany
About: Technical University of Dortmund is a education organization based out in Dortmund, Nordrhein-Westfalen, Germany. It is known for research contribution in the topics: Large Hadron Collider & Neutrino. The organization has 13028 authors who have published 27666 publications receiving 615557 citations. The organization is also known as: Dortmund University & University of Dortmund.


Papers
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Journal ArticleDOI
Gerhard Buchalla1, T. K. Komatsubara2, F. Muheim3, Luca Silvestrini4, Marina Artuso5, D. M. Asner6, Patricia Ball7, E. Baracchini4, G. Bell8, M. Beneke9, Jeffrey Berryhill10, Adrian John Bevan11, Ikaros I.Y. Bigi12, Monika Blanke13, Monika Blanke14, Ch. Bobeth15, Marcella Bona16, F. Borzumati17, F. Borzumati18, T. E. Browder19, Trygve Buanes20, Oliver Buchmuller21, Andrzej J. Buras13, Sergey Burdin22, D. G. Cassel23, Richard Cavanaugh24, M. Ciuchini, Pietro Colangelo, Giovanni Crosetti25, Athanasios Dedes7, F. De Fazio, Sébastien Descotes-Genon26, J. Dickens27, Z. Doležal28, Stephan Dürr, Ulrik Egede29, C. Eggel30, G. Eigen20, S. Fajfer31, Th. Feldmann32, R. Ferrandes, Paolo Gambino33, T. J. Gershon34, V. Gibson27, Mario Giorgi35, Vladimir Gligorov36, B. Golob37, A. Golutvin21, A. Golutvin38, Yuval Grossman39, Diego Guadagnoli13, Ulrich Haisch40, Masashi Hazumi2, S. Heinemeyer, G. Hiller15, D. G. Hitlin41, Tobias Huber9, Tobias Hurth21, T. Iijima42, A. Ishikawa43, Gino Isidori, Sebastian Jäger21, Alexander Khodjamirian32, Patrick Koppenburg29, T. Lagouri28, Urs Langenegger30, Cristina Lazzeroni27, Alexander Lenz44, Vittorio Lubicz, W. Lucha, H. Mahlke23, Dmitri Melikhov45, Federico Mescia, M. Misiak46, M. Nakao2, J. Napolitano47, Nikolay Nikitin45, Ulrich Nierste8, K. Oide2, Yasuhiro Okada2, P. Paradisi13, Fabrizio Parodi48, Maulik R. Patel21, Alexey A. Petrov49, T.N. Pham50, Maurizio Pierini21, S. Playfer3, Giacomo Polesello51, Antonio Policicchio25, Anton Poschenrieder13, P. Raimondi, Stefan Recksiegel13, P. Řezníček28, A. Robert52, Jonathan L. Rosner53, G. Ruggiero21, Alessandro Sarti, O. Schneider54, F. Schwab55, Silvano Simula, Serguei Sivoklokov45, P. Slavich21, Christopher Smith56, Maria Smizanska57, Amarjit Soni58, T. Speer40, P. Spradlin36, M. Spranger13, Andrei Starodumov30, Berthold Stech59, Achille Stocchi26, Sheldon Stone5, Cecilia Tarantino, F. Teubert21, Stephane T'Jampens16, K. Toms45, K. Trabelsi2, Stephanie Trine8, Selma Uhlig13, V. Vagnoni60, J. van Hunen54, Georg Weiglein7, Andreas Weiler23, G. Wilkinson36, Yuehong Xie3, M. Yamauchi2, Guo-huai Zhu61, Jure Zupan31, Roman Zwicky7 
Ludwig Maximilian University of Munich1, Graduate University for Advanced Studies2, University of Edinburgh3, Sapienza University of Rome4, Syracuse University5, Carleton University6, Durham University7, Karlsruhe Institute of Technology8, RWTH Aachen University9, Fermilab10, Queen Mary University of London11, University of Notre Dame12, Technische Universität München13, Max Planck Society14, Technical University of Dortmund15, University of Savoy16, National Central University17, International Centre for Theoretical Physics18, University of Hawaii at Manoa19, University of Bergen20, CERN21, University of Liverpool22, Cornell University23, University of Florida24, University of Calabria25, University of Paris26, University of Cambridge27, Charles University in Prague28, Imperial College London29, ETH Zurich30, Jožef Stefan Institute31, Folkwang University of the Arts32, University of Turin33, University of Warwick34, University of Pisa35, University of Oxford36, University of Ljubljana37, Institute on Taxation and Economic Policy38, Technion – Israel Institute of Technology39, University of Zurich40, California Institute of Technology41, Nagoya University42, Saga University43, University of Regensburg44, Moscow State University45, University of Warsaw46, Rensselaer Polytechnic Institute47, University of Genoa48, Wayne State University49, École Polytechnique50, University of Pavia51, University of Clermont-Ferrand52, University of Chicago53, École Polytechnique Fédérale de Lausanne54, Autonomous University of Barcelona55, University of Bern56, Lancaster University57, Brookhaven National Laboratory58, Heidelberg University59, University of Bologna60, University of Hamburg61
TL;DR: In this article, the authors provide a coherent, up-to-date picture of the status of flavour physics before the start of the LHC and initiate activities on the path towards integrating information on NP from high-pT and flavour data.
Abstract: With the advent of the LHC, we will be able to probe New Physics (NP) up to energy scales almost one order of magnitude larger than it has been possible with present accelerator facilities. While direct detection of new particles will be the main avenue to establish the presence of NP at the LHC, indirect searches will provide precious complementary information, since most probably it will not be possible to measure the full spectrum of new particles and their couplings through direct production. In particular, precision measurements and computations in the realm of flavour physics are expected to play a key role in constraining the unknown parameters of the Lagrangian of any NP model emerging from direct searches at the LHC. The aim of Working Group 2 was twofold: on one hand, to provide a coherent, up-to-date picture of the status of flavour physics before the start of the LHC; on the other hand, to initiate activities on the path towards integrating information on NP from high-pT and flavour data.

149 citations

Journal ArticleDOI
M. G. Aartsen1, Rasha Abbasi2, Y. Abdou3, Markus Ackermann  +280 moreInstitutions (38)
TL;DR: In this article, the authors report on the measurement of the all-particle cosmic ray energy spectrum with the IceTop air shower array in the energy range from 1.58 PeV to 1.26 EeV.
Abstract: We report on the measurement of the all-particle cosmic ray energy spectrum with the IceTop air shower array in the energy range from 1.58 PeV to 1.26 EeV. The IceTop air shower array is the surface component of the IceCube Neutrino Observatory at the geographical South Pole. The analysis was performed using only information from IceTop. The data used in this work were taken from June 1, 2010 to May 13, 2011. During that period the IceTop array consisted of 73 stations, compared to 81 in its final configuration. The measured spectrum exhibits a clear deviation from a single power law above the knee around 4 PeV and below 1 EeV. We observe spectral hardening around 18 PeV and steepening around 130 PeV.

149 citations

Journal ArticleDOI
Bernard Aubert1, Marcella Bona1, Y. Karyotakis1, J. P. Lees1  +515 moreInstitutions (76)
TL;DR: In this paper, the results of a search for Z(4430)^- decay to J/Ψ π- or Ψ(2S)π^- in B(^-.0)→ J/√ π^-K^(0.+) and B^(-.1×10^(-5) at 95% confidence level were reported.
Abstract: We report the results of a search for Z(4430)^- decay to J/Ψ π^- or Ψ(2S)π^- in B(^-.0)→ J/Ψ π^-K^(0.+) and B^(-.0) → Ψ(2S)π^-K^(0.+) decays. The data were collected with the BABAR detector at the SLAC PEP-II asymmetric-energy e^+e^- collider operating at center-of-mass energy 10.58 GeV, and the sample corresponds to an integrated luminosity of 413 fb^(-1). Each K π^- mass distribution exhibits clear K^*(892) and K_2^*(1430) signals, and the efficiency-corrected spectrum is well described by a superposition of the associated Breit-Wigner intensity distributions, together with an S-wave contribution obtained from the LASS I=1/2 K π^- scattering amplitude measurements. Each K π^- angular distribution varies significantly in structure with K π^- mass, and is represented in terms of low-order Legendre polynomial moments. We find that each J/Ψ π^- or Ψ (2S)π^- mass distribution is well described by the reflection of the measured K π^- mass and angular distribution structures. We see no significant evidence for a Z(4430)^- signal for any of the processes investigated, neither in the total J/Ψ π^- or Ψ(2S) π^- mass distribution, nor in the corresponding distributions for the regions of K π- mass for which observation of the Z(4430)^- signal was reported. We obtain branching-fraction upper limits [script B](B^- → Z^-[overline K]^0,Z^- → J/Ψ π^-)<1.5×10^(-5), [script B](B^0 → Z^-K^+,Z^- → J/Ψ π^-)<0.4×10^(-5), [script B](B → Z-[overline K]0,Z → Ψ(2S)π-)<4.7×10-5, and [script B](B^0 → Z^-K^+,Z^- → Ψ(2S)π^-)<3.1×10^(-5) at 95% confidence level, where the Z(4430)- mass and width have been fixed to the reported central values

149 citations

Journal ArticleDOI
TL;DR: This paper studies a new, larger class of smooth radial functions of compact support which contains other compactly supported ones that were proposed earlier in the literature.
Abstract: Radial basis functions are well-known and successful tools for the interpolation of data in many dimensions. Several radial basis functions of compact support that give rise to nonsingular interpolation problems have been proposed, and in this paper we study a new, larger class of smooth radial functions of compact support which contains other compactly supported ones that were proposed earlier in the literature.

149 citations

Journal ArticleDOI
TL;DR: Oscillations with time-dependent period in the transmitted light intensity are quantitatively explained as resulting from quantum beats between the two branches of the exciton polariton.
Abstract: Coherent propagation of quadrupole polaritons in ${\mathrm{Cu}}_{2}$O is demonstrated by time-resolved spectroscopy. This manifests itself in a strong distortion of the temporal shape of a picosecond optical pulse which is in resonance with the 1S exciton polariton. Oscillations with time-dependent period in the transmitted light intensity are quantitatively explained as resulting from quantum beats between the two branches of the exciton polariton. The analysis yields the homogeneous linewidth and oscillator strength.

149 citations


Authors

Showing all 13240 results

NameH-indexPapersCitations
Hermann Kolanoski145127996152
Marc Besancon1431799106869
Kerstin Borras133134192173
Emmerich Kneringer129102180898
Achim Geiser129133184136
Valerio Vercesi12993779519
Jens Weingarten12889674667
Giuseppe Mornacchi12789475830
Kevin Kroeninger12683670010
Daniel Muenstermann12688570855
Reiner Klingenberg12673370069
Claus Gössling12677571975
Diane Cinca12682270126
Frank Meier12467764889
Daniel Dobos12467967434
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
2023131
2022306
20211,694
20201,773
20191,653
20181,579