Richard Van Kooten
Indiana University Bloomington
H-index: 135
North America-United States
About Richard Van Kooten
Richard Van Kooten, With an exceptional h-index of 135 and a recent h-index of 38 (since 2020), a distinguished researcher at Indiana University Bloomington, specializes in the field of Experimental Particle Physics, Colllider Physics.
His recent articles reflect a diverse array of research interests and contributions to the field:
arXiv: Up and Down Quark Structure of the Proton
Up and Down Quark Structure of the Proton
Study of the normalized transverse momentum distribution of bosons produced in collisions at
Odderon Exchange from Elastic Scattering Differences between and Data at 1.96 TeV and from Forward Scattering Measurements
Averages of b-hadron, c-hadron, and -lepton properties as of 2018: Heavy Flavor Averaging Group (HFLAV)
Studies of and production in collisions at 1.96 TeV
Studies of X (3872) and ψ (2S) production in pp¯ collisions at 1.96 TeV studies of X (3872) and ψ (2S) production in... VM Abazov et al.
Comparison of and differential elastic cross sections and observation of the exchange of a colorless -odd gluonic compound
Richard Van Kooten Information
University | Indiana University Bloomington |
|---|---|
Position | Executive Dean College of Arts & Sciences Professor of Physics |
Citations(all) | 66066 |
Citations(since 2020) | 7868 |
Cited By | 61369 |
hIndex(all) | 135 |
hIndex(since 2020) | 38 |
i10Index(all) | 652 |
i10Index(since 2020) | 176 |
University Profile Page | Indiana University Bloomington |
Richard Van Kooten Skills & Research Interests
Experimental Particle Physics
Colllider Physics
Top articles of Richard Van Kooten
arXiv: Up and Down Quark Structure of the Proton
Authors
VM Abazov,DA Stoyanova,J Warchol,J Zennamo,SW Youn,A Sánchez-Hernández,R McCarthy,T Yasuda,MP Sanders,F Couderc,D Lincoln,R Bernhard,U Bassler,S Kermiche,H Fox,F Fiedler,A Askew,A Kharchilava,T Hebbeker,JM Hauptman,E Johnson,JP Negret,SJ de Jong,R Demina,A Jayasinghe,L Suter,W Ye,MHLS Wang,JD Hobbs,AA Shchukin,J Franc,S Yang,S Uzunyan,J Joshi,A Jonckheere,JA García-González,JM Kohli,J Ellison,R Madar,JF Bartlett,L Sonnenschein,U Heintz,F Badaud,J Kraus,V Bazterra,D Price,C Hensel,Y Xie,N Prokopenko,S Snyder,R Lopes de Sa,MS Jeong,M Schott,R Kehoe,E Shabalina,I Bertram,A Khanov,K Soustruznik,E Barberis,YN Kharzheev,R Lipton,XB Bu,Y Peters,Y-T Tsai,S Atkins,A Bean,CP Buszello,Y Scheglov,M Cooke,A Das,M Zielinski,A Kumar,Z Ye,S Uvarov,PC Bhat,MRJ Williams,R Van Kooten,LV Dudko,Y Liu,VD Elvira,M Diesburg,J Hays,G Blazey,L Welty-Rieger,CE Gerber,S Chakrabarti,B Abbott,G Sajot,I Razumov,S Dutt,R Magaña-Villalba,V Parihar,M Jaffré,L Feng,X Lei,T Kurča,F Rizatdinova,C Royon,R Ruchti,J Weichert,D Denisov,VL Malyshev,T Head,W Geng,T Nunnemann,N Varelas,EW Varnes,M-A Pleier,D Claes,H Evans,J Snow,J Mansour,G Golovanov,M Johnson,Y Ilchenko,A Brandt,D Cutts,A Duperrin,SK Park,R Jesik,O Brandt,S Caughron,G Ginther,S Grünendahl,M Perfilov,G Gutierrez,NK Mondal,T Ferbel,TG Zhao,M Wobisch,AS Ito,M Xie,B Tuchming,M Kaur,G Bernardi,E Camacho-Pérez,HE Fisk,IA Vasilyev,J Meyer,QZ Li,M Titov,K Bloom,D Vilanova,K Harder,A Pal,P Baringer,Y Enari,P Neustroev,P Gutierrez,J Stark
Published Date
2024/3/14
We measure proton structure parameters sensitive primarily to valence quarks using 8.6 fb− 1 of data collected by the D0 detector in√ s= 1.96 TeV pp collisions at the Fermilab Tevatron. We exploit the property of the forward-backward asymmetry in dilepton events to be factorized into distinct structure parameters and electroweak quark-level asymmetries. Contributions to the asymmetry from s, c and b quarks, as well as from u and d sea quarks, are suppressed allowing valence u and d quarks to be separately determined. We find an u to d quark ratio near the peak values in the quark density distributions that is smaller than predictions from modern parton distribution functions.The forward-backward asymmetry, AFB, in dilepton production at hadron colliders is due to parity violation in the electroweak interaction but also depends upon the hadron’s partonic structure [1–4]. Although many observables depend upon the experimentally indistinguishable contributions from different quark flavors, AFB has the capability to provide information on specific quarks. Contributions to AFB from the s, c and b quarks are significantly suppressed because the quark and antiquark densities are nearly the same and thus AFB predominately depends on u and d quark densities. Moreover, the asymmetries for uu and d d initial states depend differently on the dilepton mass (M), offering the possibility to obtain u and d quark densities individually. Recent analyses [5, 6] show that AFB can be factorized into sep-
Up and Down Quark Structure of the Proton
Authors
VM Abazov
Published Date
2024/3/14
We measure proton structure parameters sensitive primarily to valence quarks using 8.6 fb of data collected by the D0 detector in TeV collisions at the Fermilab Tevatron. We exploit the property of the forward-backward asymmetry in dilepton events to be factorized in to distinct structure parameters and electroweak quark-level asymmetries. Contributions to the asymmetry from , and quarks, as well as from and quarks, are suppressed allowing valence and quarks to be separately determined. We find and to quark ratio near the peak values in the quark density distributions that is smaller than predictions from modern parton distribution functions.
Study of the normalized transverse momentum distribution of bosons produced in collisions at
Authors
Victor Mukhamedovich Abazov,B Abbott,Bannanje Sripath Acharya,M Adams,Todd Adams,James P Agnew,Guennadi D Alexeev,G Alkhazov,A Alton,A Askew,Scott Atkins,Kamil Augsten,Volodymyr Aushev,Yegor Aushev,C Avila,Frederique Badaud,L Bagby,Boris Baldin,Dmitry V Bandurin,Sunanda Banerjee,Emanuela Barberis,P Baringer,JF Bartlett,U Bassler,Victor Bazterra,A Bean,Marcia Begalli,Leo Bellantoni,Suman B Beri,Gregorio Bernardi,R Bernhard,I Bertram,Marc Besancon,Raymond Beuselinck,Pushpalatha C Bhat,Sudeep Bhatia,Vipin Bhatnagar,G Blazey,S Blessing,K Bloom,A Boehnlein,D Boline,EE Boos,G Borissov,M Borysova,A Brandt,O Brandt,M Brochmann,R Brock,A Bross,D Brown,XB Bu,M Buehler,V Buescher,V Bunichev,S Burdin,CP Buszello,E Camacho-Perez,BCK Casey,H Castilla-Valdez,S Caughron,S Chakrabarti,KM Chan,A Chandra,E Chapon,G Chen,SW Cho,S Choi,B Choudhary,S Cihangir,D Claes,J Clutter,M Cooke,WE Cooper,M Corcoran,F Couderc,M-C Cousinou,J Cuth,D Cutts,A Das,G Davies,SJ de Jong,E De la Cruz-Burelo,F Deliot,R Demina,D Denisov,SP Denisov,S Desai,C Deterre,K DeVaughan,HT Diehl,M Diesburg,PF Ding,A Dominguez,A Drutskoy,A Dubey,LV Dudko,A Duperrin,S Dutt,M Eads,D Edmunds,J Ellison,VD Elvira,Y Enari,H Evans,A Evdokimov,VN Evdokimov,A Faure,L Feng,T Ferbel,F Fiedler,F Filthaut,W Fisher,HE Fisk,M Fortner,H Fox,J Franc,S Fuess,Y Fu,PH Garbincius,A Garcia-Bellido,JA Garcia-Gonzalez,V Gavrilov,W Geng,CE Gerber,Y Gershtein,G Ginther,O Gogota,G Golovanov,PD Grannis,S Greder,H Greenlee,G Grenier,Ph Gris,J-F Grivaz,A Grohsjean,S Gruenendahl,MW Gruenewald,T Guillemin,G Gutierrez,P Gutierrez,J Haley,L Han,K Harder,A Harel,JM Hauptman,J Hays,T Head,T Hebbeker,D Hedin
Journal
Physical Review D
Published Date
2021/1/5
We present a study of the normalized transverse momentum distribution of W bosons produced in p p collisions, using data corresponding to an integrated luminosity of 4.35 fb− 1 collected with the D0 detector at the Fermilab Tevatron collider at s= 1.96 TeV. The measurement focuses on the transverse momentum region below 15 GeV, which is of special interest for electroweak precision measurements; it relies on the same detector calibration methods which were used for the precision measurement of the W boson mass. The measured distribution is compared to different QCD predictions and a procedure is given to allow the comparison of any further theoretical models to the D0 data.
Odderon Exchange from Elastic Scattering Differences between and Data at 1.96 TeV and from Forward Scattering Measurements
Authors
VM Abazov,B Abbott,BS Acharya,M Adams,T Adams,JP Agnew,GD Alexeev,G Alkhazov,A Alton,GA Alves,G Antchev,A Askew,P Aspell,ACS Assis Jesus,I Atanassov,S Atkins,K Augsten,V Aushev,Y Aushev,V Avati,C Avila,F Badaud,J Baechler,L Bagby,C Baldenegro Barrera,B Baldin,DV Bandurin,S Banerjee,E Barberis,P Baringer,J Barreto,JF Bartlett,U Bassler,V Bazterra,A Bean,M Begalli,L Bellantoni,V Berardi,SB Beri,G Bernardi,R Bernhard,M Berretti,I Bertram,M Besançon,R Beuselinck,PC Bhat,S Bhatia,V Bhatnagar,G Blazey,S Blessing,K Bloom,A Boehnlein,D Boline,EE Boos,V Borchsh,G Borissov,M Borysova,E Bossini,U Bottigli,M Bozzo,A Brandt,O Brandt,M Brochmann,R Brock,A Bross,D Brown,XB Bu,M Buehler,V Buescher,V Bunichev,S Burdin,H Burkhardt,CP Buszello,FS Cafagna,E Camacho-Pérez,W Carvalho,BCK Casey,H Castilla-Valdez,MG Catanesi,S Caughron,S Chakrabarti,KM Chan,A Chandra,E Chapon,G Chen,SW Cho,S Choi,B Choudhary,S Cihangir,D Claes,J Clutter,M Cooke,WE Cooper,M Corcoran,F Couderc,M-C Cousinou,M Csanád,T Csörgő,J Cuth,D Cutts,H Da Motta,A Das,G Davies,M Deile,SJ De Jong,E De La Cruz-Burelo,F De Leonardis,F Déliot,R Demina,D Denisov,SP Denisov,C De Oliveira Martins,S Desai,C Deterre,K DeVaughan,HT Diehl,M Diesburg,PF Ding,A Dominguez,M Doubek,A Drutskoy,D Druzhkin,A Dubey,LV Dudko,A Duperrin,S Dutt,M Eads,D Edmunds,K Eggert,J Ellison,VD Elvira,Y Enari,V Eremin,H Evans,A Evdokimov,VN Evdokimov,A Fauré,L Feng,T Ferbel,F Ferro,F Fiedler,A Fiergolski,F Filthaut,W Fisher,HE Fisk,L Forthomme,M Fortner,H Fox,J Franc,S Fuess
Journal
Physical review letters
Published Date
2021/8/4
We describe an analysis comparing the p p elastic cross section as measured by the D0 Collaboration at a center-of-mass energy of 1.96 TeV to that in p p collisions as measured by the TOTEM Collaboration at 2.76, 7, 8, and 13 TeV using a model-independent approach. The TOTEM cross sections, extrapolated to a center-of-mass energy of s= 1.96 TeV, are compared with the D0 measurement in the region of the diffractive minimum and the second maximum of the p p cross section. The two data sets disagree at the 3.4 σ level and thus provide evidence for the t-channel exchange of a colorless, C-odd gluonic compound, also known as the odderon. We combine these results with a TOTEM analysis of the same C-odd exchange based on the total cross section and the ratio of the real to imaginary parts of the forward elastic strong interaction scattering amplitude in p p scattering for which the significance is between …
Averages of b-hadron, c-hadron, and -lepton properties as of 2018: Heavy Flavor Averaging Group (HFLAV)
Authors
Heavy Flavor Averaging Group (HFLAV):,Y Amhis,Sw Banerjee,E Ben-Haim,F Bernlochner,A Bozek,C Bozzi,M Chrząszcz,J Dingfelder,S Duell,M Gersabeck,T Gershon,D Gerstel,P Goldenzweig,R Harr,K Hayasaka,H Hayashii,M Kenzie,T Kuhr,O Leroy,A Lusiani,XR Lyu,K Miyabayashi,P Naik,T Nanut,A Oyanguren Campos,M Patel,D Pedrini,M Petrič,M Rama,M Roney,M Rotondo,O Schneider,C Schwanda,AJ Schwartz,J Serrano,B Shwartz,R Tesarek,D Tonelli,K Trabelsi,P Urquijo,R Van Kooten,J Yelton,A Zupanc
Journal
The European Physical Journal C
Published Date
2017/12
This article reports world averages of measurements of b-hadron, c-hadron, and -lepton properties obtained by the Heavy Flavor Averaging Group using results available through summer 2016. For the averaging, common input parameters used in the various analyses are adjusted (rescaled) to common values, and known correlations are taken into account. The averages include branching fractions, lifetimes, neutral meson mixing parameters, violation parameters, parameters of semileptonic decays, and Cabbibo–Kobayashi–Maskawa matrix elements.
Studies of and production in collisions at 1.96 TeV
Authors
D0 Collaboration
Journal
arXiv preprint arXiv:2007.13420
Published Date
2020/7/27
We present various properties of the production of the and states based on 10.4 fb collected by D0 experiment in Tevatron collisions at = 1.96 TeV. For both states, we measure the nonprompt fraction of the inclusive production rate due to decays of -flavored hadrons. We find the values systematically below those obtained at the LHC. The fraction for increases with transverse momentum whereas for the X(3872) it is constant within large uncertainties, in agreement with the LHC results. The ratio of prompt to nonprompt production, , decreases only slightly going from the Tevatron to the LHC, but for the this ratio decreases by a factor of about 3. We test the soft-pion signature of the modeled as a weakly-bound charm-meson pair by studying the production of the as a function of the kinetic energy of the and the pion in the center-of-mass frame. For a subsample consistent with prompt production, the results are incompatible with a strong enhancement in the production of the at small kinetic energy of the and the in the center-of-mass frame expected for the +soft-pion production mechanism. For events consistent with being due to decays of hadrons, there is no significant evidence for the soft-pion effect but its presence at the level expected for the binding energy of 0.17 MeV and the momentum scale is not ruled out.
Studies of X (3872) and ψ (2S) production in pp¯ collisions at 1.96 TeV studies of X (3872) and ψ (2S) production in... VM Abazov et al.
Authors
C Hensel,AKA Maciel,AS Santos,M Begalli,PG Mercadante,L Han,P Jiang,Y Liu,C Wang,S Yang,C Avila,JP Negret,K Soustruznik,K Augsten,J Franc,Z Hubacek,V Hynek,V Simak,P Vokac,A Kupco,M Lokajicek,C Royon,B Hoeneisen,F Badaud,P Gris,G Sajot,J Stark,MC Cousinou,A Duperrin,W Geng,E Kajfasz,S Kermiche,E Nagy,N Osman,JF Grivaz,T Guillemin,M Jaffré,P Pétroff,G Bernardi,D Brown,Y Enari,J Lellouch,D Li,L Zivkovic,U Bassler,M Besançon,E Chapon,F Couderc,F Déliot,A Fauré,A Grohsjean,V Shary,M Titov,B Tuchming,D Vilanova,S Greder,F Miconi,I Ripp-Baudot,G Grenier,T Kurča,P Lebrun,T Hebbeker,A Meyer,L Sonnenschein,R Bernhard,R Madar,O Brandt,J Mansour,J Meyer,A Quadt,E Shabalina,V Buescher,J Cuth,F Fiedler,M Hohlfeld,M Schott,J Weichert,T Nunnemann,MP Sanders,SB Beri,V Bhatnagar,S Dutt,M Kaur,JM Kohli,B Choudhary,A Dubey,BS Acharya,S Banerjee,NK Mondal,MW Grünewald,SW Cho,S Choi,MS Jeong,HS Lee,JK Lim,SK Park,E Camacho-Pérez,H Castilla-Valdez,E De La Cruz-Burelo,JA García-González,I Heredia-De La Cruz,R Luna-Garcia,R Magaña-Villalba,J Martínez-Ortega,A Sánchez-Hernández,SJ De Jong,F Filthaut,MM Meijer,WM Van Leeuwen,VM Abazov,GD Alexeev,G Golovanov,YN Kharzheev,VL Malyshev,VV Tokmenin,AY Verkheev,LS Vertogradov,YA Yatsunenko,A Drutskoy,V Gavrilov,I Kiselevich,EE Boos,V Bunichev,LV Dudko,D Karmanov,VA Kuzmin,M Merkin,M Perfilov,SP Denisov,VN Evdokimov,AV Kozelov,VV Lipaev,AV Popov,N Prokopenko,I Razumov,AA Shchukin,DA Stoyanova,IA Vasilyev,G Alkhazov,A Lobodenko,P Neustroev,Y Scheglov,L Uvarov,S Uvarov,A Juste,CP Buszello,V Aushev,Y Aushev,M Borysova,O Gogota
Journal
Physical Review D
Published Date
2020
Studies of X (3872) and ψ (2S) production in pp collisions at 1.96 TeV studies of X (3872) and ψ (2S) production in... VM Abazov et al. КОРЗИНА ПОИСК НАВИГАТОР ЖУРНАЛЫ КНИГИ ПАТЕНТЫ ПОИСК АВТОРЫ ОРГАНИЗАЦИИ КЛЮЧЕВЫЕ СЛОВА РУБРИКАТОР Начальная страница СЕССИЯ КОНТАКТЫ ИНФОРМАЦИЯ О ПУБЛИКАЦИИ eLIBRARY ID: 45129595 DOI: 10.1103/PhysRevD.102.072005 STUDIES OF X (3872) AND ψ (2S) PRODUCTION IN PP COLLISIONS AT 1.96 TEV STUDIES OF X (3872) AND ψ (2S) PRODUCTION IN... VM ABAZOV ET AL. HENSEL C. , MACIEL AKA 1 , SANTOS AS 1 , BEGALLI M. , MERCADANTE PG 3 , HAN L. , JIANG P. , LIU Y. , WANG C. , YANG S. , AVILA C. , NEGRET JP 5 , SOUSTRUZNIK K. , AUGSTEN K. , FRANC J. , HUBACEK Z. , HYNEK V. , SIMAK V. , VOKAC P. , KUPCO A. , LOKAJICEK M. , ROYON C. , HOENEISEN B. , BADAUD F. , GRIS P. , SAJOT G. …
Comparison of and differential elastic cross sections and observation of the exchange of a colorless -odd gluonic compound
Authors
VM Abazov,B Abbott,BS Acharya,M Adams,T Adams,JP Agnew,GD Alexeev,G Alkhazov,A Alton,GA Alves,G Antchev,A Askew,P Aspell,ACS Jesus,I Atanassov,S Atkins,K Augsten,V Aushev,Y Aushev,V Avati,C Avila,F Badaud,J Baechler,L Bagby,C Baldenegro Barrera,B Baldin,DV Bandurin,S Banerjee,E Barberis,P Baringer,J Barreto,JF Bartlett,U Bassler,V Bazterra,A Bean,M Begalli,L Bellantoni,V Berardi,SB Beri,G Bernardi,R Bernhard,M Berretti,I Bertram,M Besanccon,R Beuselinck,PC Bhat,S Bhatia,V Bhatnagar,G Blazey,S Blessing,K Bloom,A Boehnlein,D Boline,EE Boos,V Borchsh,G Borissov,M Borysova,E Bossini,U Bottigli,M Bozzo,A Brandt,O Brandt,M Brochmann,R Brock,A Bross,D Brown,XB Bu,M Buehler,V Buescher,V Bunichev,S Burdin,H Burkhardt,CP Buszello,FS Cafagna,E Camacho-P'erez,W Carvahlo,BCK Casey,H Castilla-Valdez,MG Catanesi,S Caughron,S Chakrabarti,KM Chan,A Chandra,E Chapon,G Chen,SW Cho,S Choi,B Choudhary,S Cihangir,D Claes,J Clutter,M Cooke,WE Cooper,M Corcoran,F Couderc,M-C Cousinou,M Csan'ad,J Cuth,D Cutts,A Das,G Davies,M Deile,SJ de Jong,De La Cruz-Burelo,F De Leonardis,F D'eliot,R Demina,D Denisov,SP Denisov,S Desai,C Deterre,K DeVaughan,HT Diehl,M Diesburg,PF Ding,A Dominguez,M Doubek,A Drutskoy,D Druzhkin,A Dubey,LV Dudko,A Duperrin,S Dutt,M Eads,D Edmunds,K Eggert,J Ellison,VD Elvira,Y Enari,V Eremin,H Evans,A Evdokimov,VN Evdokimov,A Faur'e,L Feng,T Ferbel,F Ferro,F Fiedler,A Fiergolski,F Filthaut,W Fisher,HE Fisk,L Forthomme,M Fortner,H Fox,J Franc,S Fuess,PH Garbincius,F Garcia,A Garcia-Bellido
Journal
arXiv preprint arXiv:2012.03981
Published Date
2020/12/7
We describe an analysis comparing the elastic cross section as measured by the D0 Collaboration at a center-of-mass energy of 1.96 TeV to that in collisions as measured by the TOTEM Collaboration at 2.76, 7, 8, and 13 TeV using a model-independent approach. The TOTEM cross sections extrapolated to a center-of-mass energy of 1.96 TeV are compared with the D0 measurement in the region of the diffractive minimum and the second maximum of the cross section. The two data sets disagree at the 3.4 level and thus provide evidence for the -channel exchange of a colorless, -odd gluonic compound, also known as the odderon. We combine these results with a TOTEM analysis of the same -odd exchange based on the total cross section and the ratio of the real to imaginary parts of the forward elastic scattering amplitude in scattering. The combined significance of these results is larger than 5 and is interpreted as the first observation of the exchange of a colorless, -odd gluonic compound.
Studies of and production in collisions at 1.96 TeV
Authors
Victor Mukhamedovich Abazov,B Abbott,Bannanje Sripath Acharya,M Adams,Todd Adams,James P Agnew,Guennadi D Alexeev,G Alkhazov,A Alton,A Askew,Scott Atkins,Kamil Augsten,Volodymyr Aushev,Yegor Aushev,C Avila,Frederique Badaud,L Bagby,Boris Baldin,Dmitry V Bandurin,Sunanda Banerjee,Emanuela Barberis,P Baringer,JF Bartlett,U Bassler,Victor Bazterra,A Bean,Marcia Begalli,Leo Bellantoni,Suman B Beri,Gregorio Bernardi,R Bernhard,I Bertram,Marc Besancon,Raymond Beuselinck,Pushpalatha C Bhat,Sudeep Bhatia,Vipin Bhatnagar,G Blazey,S Blessing,K Bloom,A Boehnlein,D Boline,EE Boos,G Borissov,M Borysova,A Brandt,O Brandt,M Brochmann,R Brock,A Bross,D Brown,XB Bu,M Buehler,V Buescher,V Bunichev,S Burdin,CP Buszello,E Camacho-Perez,BCK Casey,H Castilla-Valdez,S Caughron,S Chakrabarti,KM Chan,A Chandra,E Chapon,G Chen,SW Cho,S Choi,B Choudhary,S Cihangir,D Claes,J Clutter,M Cooke,WE Cooper,M Corcoran,F Couderc,M-C Cousinou,J Cuth,D Cutts,A Das,G Davies,SJ de Jong,E De La Cruz-Burelo,F Deliot,R Demina,D Denisov,SP Denisov,S Desai,C Deterre,K DeVaughan,HT Diehl,M Diesburg,PF Ding,A Dominguez,A Drutskoy,A Dubey,LV Dudko,A Duperrin,S Dutt,M Eads,D Edmunds,J Ellison,VD Elvira,Y Enari,H Evans,A Evdokimov,VN Evdokimov,A Faure,L Feng,T Ferbel,F Fiedler,F Filthaut,W Fisher,HE Fisk,M Fortner,H Fox,J Franc,S Fuess,PH Garbincius,A Garcia-Bellido,JA Garcia-Gonzalez,V Gavrilov,W Geng,CE Gerber,Y Gershtein,G Ginther,O Gogota,G Golovanov,PD Grannis,S Greder,H Greenlee,G Grenier,Ph Gris,J-F Grivaz,A Grohsjean,S Grünendahl,MW Grünewald,T Guillemin,G Gutierrez,P Gutierrez,J Haley,L Han,K Harder,A Harel,JM Hauptman,J Hays,T Head,T Hebbeker,D Hedin,H Hegab
Journal
Physical Review D
Published Date
2020/10/13
We present various properties of the production of the X (3872) and ψ (2 S) states based on 10.4 fb− 1 collected by the D0 experiment in Tevatron p p collisions at s= 1.96 TeV. For both states, we measure the nonprompt fraction f N P of the inclusive production rate due to decays of b-flavored hadrons. We find the f N P values systematically below those obtained at the LHC. The f N P fraction for ψ (2 S) increases with transverse momentum, whereas for the X (3872) it is constant within large uncertainties, in agreement with the LHC results. The ratio of prompt to nonprompt ψ (2 S) production,(1− f N P)/f N P, decreases only slightly going from the Tevatron to the LHC, but for the X (3872), this ratio decreases by a factor of about 3. We test the soft-pion signature of the X (3872) modeled as a weakly bound charm-meson pair by studying the production of the X (3872) as a function of the kinetic energy of the X (3872) and …
arXiv: Snowmass 2021 Letter of Interest: Decays of Heavy Flavors Beauty, Charm, and Tau
Authors
Y Amhis,H Hayashii,C Bozzi,M Bona,J Dingfelder,M Rotondo,A Lusiani,M Roney,K Hayasaka,J Serrano,U Egede,P Naik,HB Li,R Van Kooten,M Gersabeck,D Johnson,A Bozek,J Brodzicka,C Schwanda,P Goldenzweig,T Kuhr,O Leroy,P Urquijo,O Schneider,K Miyabayashi,B Shwartz,D Tonelli,M Chrzaszcz,A Pompili,A Soffer,AJ Schwartz,T Nanut,E Ben-Haim,Sw Banerjee,M Rama,M Kenzie,M Patel,J Yelton,T Gershon
Published Date
2020/9/7
Abstract The Heavy Flavor Averaging Group provides this Letter of Interest (LOI) as input to the Snowmass 2021 Particle Physics Community Planning Exercise organized by the Division of Particles and Fields of the American Physical Society. Research in heavy flavor physics is an essential component of particle physics, both within and beyond the Standard Model. To fully realize the potential of this field, we advocate strong support within the US high energy physics program for ongoing and future experimental and theory research in heavy flavor physics.
Snowmass 2021 Letter of Interest: Decays of Heavy Flavors Beauty, Charm, and Tau
Authors
Y Amhis,Sw Banerjee,E Ben-Haim,M Bona,A Bozek,C Bozzi,J Brodzicka,M Chrzaszcz,J Dingfelder,U Egede,M Gersabeck,T Gershon,P Goldenzweig,K Hayasaka,H Hayashii,D Johnson,M Kenzie,T Kuhr,O Leroy,H-B Li,A Lusiani,K Miyabayashi,P Naik,T Nanut,M Patel,A Pompili,M Rama,M Roney,M Rotondo,O Schneider,C Schwanda,AJ Schwartz,B Shwartz,J Serrano,A Soffer,D Tonelli,P Urquijo,R Van Kooten,J Yelton
Journal
arXiv preprint arXiv:2009.03423
Published Date
2020/9/7
The Heavy Flavor Averaging Group provides this Letter of Interest (LOI) as input to the Snowmass 2021 Particle Physics Community Planning Exercise organized by the Division of Particles and Fields of the American Physical Society. Research in heavy flavor physics is an essential component of particle physics, both within and beyond the Standard Model. To fully realize the potential of this field, we advocate strong support within the U.S. high energy physics program for ongoing and future experimental and theory research in heavy flavor physics.
Richard Van Kooten FAQs
What is Richard Van Kooten's h-index at Indiana University Bloomington?
The h-index of Richard Van Kooten has been 38 since 2020 and 135 in total.
What are Richard Van Kooten's top articles?
The articles with the titles of
arXiv: Up and Down Quark Structure of the Proton
Up and Down Quark Structure of the Proton
Study of the normalized transverse momentum distribution of bosons produced in collisions at
Odderon Exchange from Elastic Scattering Differences between and Data at 1.96 TeV and from Forward Scattering Measurements
Averages of b-hadron, c-hadron, and -lepton properties as of 2018: Heavy Flavor Averaging Group (HFLAV)
Studies of and production in collisions at 1.96 TeV
Studies of X (3872) and ψ (2S) production in pp¯ collisions at 1.96 TeV studies of X (3872) and ψ (2S) production in... VM Abazov et al.
Comparison of and differential elastic cross sections and observation of the exchange of a colorless -odd gluonic compound
...
are the top articles of Richard Van Kooten at Indiana University Bloomington.
What are Richard Van Kooten's research interests?
The research interests of Richard Van Kooten are: Experimental Particle Physics, Colllider Physics
What is Richard Van Kooten's total number of citations?
Richard Van Kooten has 66,066 citations in total.
Useful Links