Duncan Carlsmith

University of Wisconsin-Madison

H-index: 238

North America-United States

Description

Duncan Carlsmith, With an exceptional h-index of 238 and a recent h-index of 119 (since 2020), a distinguished researcher at University of Wisconsin-Madison, specializes in the field of Elementary Particle Physics.

His recent articles reflect a diverse array of research interests and contributions to the field:

First dark matter search results from the LUX-ZEPLIN (LZ) experiment

Erratum to: The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs

Erratum to: Searches for long-lived charged particles in pp collisions at = 7 and 8 TeV

Evidence for X(3872) in Pb-Pb Collisions and Studies of its Prompt Production at

Erratum to: Search for new physics in dijet angular distributions using proton-proton collisions at and constraints on dark matter and other models

Searches for long-lived charged particles in pp collisions at root s= 7 and 8 TeV (vol 07, 122, 2013)

High-precision measurement of the W boson mass with the CDF II detector

The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs (vol 80, 1044, 2020)

Professor Information

University	University of Wisconsin-Madison
Position	___
Citations(all)	267068
Citations(since 2020)	78004
Cited By	207760
hIndex(all)	238
hIndex(since 2020)	119
i10Index(all)	1261
i10Index(since 2020)	712
Email	Access Email
University Profile Page	University of Wisconsin-Madison

Research & Interests List

Elementary Particle Physics

Top articles of Duncan Carlsmith

First dark matter search results from the LUX-ZEPLIN (LZ) experiment

The LUX-ZEPLIN experiment is a dark matter detector centered on a dual-phase xenon time projection chamber operating at the Sanford Underground Research Facility in Lead, South Dakota, USA. This Letter reports results from LUX-ZEPLIN’s first search for weakly interacting massive particles (WIMPs) with an exposure of 60 live days using a fiducial mass of 5.5 t. A profile-likelihood ratio analysis shows the data to be consistent with a background-only hypothesis, setting new limits on spin-independent WIMP-nucleon, spin-dependent WIMP-neutron, and spin-dependent WIMP-proton cross sections for WIMP masses above 9 GeV/c 2. The most stringent limit is set for spin-independent scattering at 36 GeV/c 2, rejecting cross sections above 9.2× 10− 48 cm at the 90% confidence level.

Authors

Jelle Aalbers,DS Akerib,CW Akerlof,AK Al Musalhi,F Alder,A Alqahtani,SK Alsum,CS Amarasinghe,A Ames,TJ Anderson,N Angelides,HM Araújo,JE Armstrong,M Arthurs,S Azadi,AJ Bailey,A Baker,J Balajthy,S Balashov,J Bang,JW Bargemann,MJ Barry,J Barthel,D Bauer,A Baxter,K Beattie,J Belle,P Beltrame,J Bensinger,T Benson,EP Bernard,A Bhatti,A Biekert,TP Biesiadzinski,HJ Birch,B Birrittella,GM Blockinger,KE Boast,B Boxer,R Bramante,CAJ Brew,P Brás,JH Buckley,VV Bugaev,S Burdin,JK Busenitz,M Buuck,R Cabrita,C Carels,DL Carlsmith,B Carlson,MC Carmona-Benitez,M Cascella,C Chan,A Chawla,H Chen,JJ Cherwinka,NI Chott,A Cole,J Coleman,MV Converse,A Cottle,G Cox,WW Craddock,O Creaner,D Curran,A Currie,JE Cutter,CE Dahl,A David,J Davis,TJR Davison,J Delgaudio,S Dey,L De Viveiros,A Dobi,JEY Dobson,E Druszkiewicz,A Dushkin,TK Edberg,WR Edwards,MM Elnimr,WT Emmet,SR Eriksen,CH Faham,A Fan,S Fayer,NM Fearon,S Fiorucci,H Flaecher,P Ford,VB Francis,ED Fraser,T Fruth,RJ Gaitskell,NJ Gantos,D Garcia,A Geffre,VM Gehman,J Genovesi,C Ghag,R Gibbons,E Gibson,MGD Gilchriese,S Gokhale,B Gomber,J Green,A Greenall,S Greenwood,MGD van der Grinten,CB Gwilliam,CR Hall,S Hans,K Hanzel,A Harrison,E Hartigan-O’Connor,SJ Haselschwardt,MA Hernandez,SA Hertel,G Heuermann,C Hjemfelt,MD Hoff,E Holtom,J YK Hor,M Horn,DQ Huang,D Hunt,CM Ignarra,RG Jacobsen,O Jahangir,RS James,SN Jeffery,W Ji,J Johnson,AC Kaboth,AC Kamaha,K Kamdin,V Kasey,K Kazkaz,J Keefner,D Khaitan,M Khaleeq,A Khazov,I Khurana,YD Kim,CD Kocher,D Kodroff,L Korley,EV Korolkova,J Kras

Journal

Physical review letters

Published Date

2023/7/28

Erratum to: The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs

Akerib, DS, Akerlof, CW, Akimov, DY et al. The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs. Eur. Phys. J. C 80, 1044 (2020). https://doi. org/10.1140/epjc/s10052-020-8420-x.

Authors

DS Akerib,CW Akerlof,D Yu Akimov,A Alquahtani,SK Alsum,TJ Anderson,N Angelides,HM Araújo,A Arbuckle,JE Armstrong,M Arthurs,H Auyeung,S Aviles,X Bai,AJ Bailey,J Balajthy,S Balashov,J Bang,MJ Barry,D Bauer,P Bauer,A Baxter,J Belle,P Beltrame,J Bensinger,T Benson,EP Bernard,A Bernstein,A Bhatti,A Biekert,TP Biesiadzinski,HJ Birch,B Birrittella,KE Boast,AI Bolozdynya,EM Boulton,B Boxer,R Bramante,S Branson,P Brás,M Breidenbach,CAJ Brew,JH Buckley,VV Bugaev,R Bunker,S Burdin,JK Busenitz,R Cabrita,JS Campbell,C Carels,DL Carlsmith,B Carlson,MC Carmona-Benitez,M Cascella,C Chan,JJ Cherwinka,AA Chiller,C Chiller,NI Chott,A Cole,J Coleman,D Colling,RA Conley,A Cottle,R Coughlen,G Cox,WW Craddock,D Curran,A Currie,JE Cutter,JP da Cunha,CE Dahl,S Dardin,S Dasu,J Davis,TJR Davison,L de Viveiros,N Decheine,A Dobi,JEY Dobson,E Druszkiewicz,A Dushkin,TK Edberg,WR Edwards,BN Edwards,J Edwards,MM Elnimr,WT Emmet,SR Eriksen,CH Faham,A Fan,S Fayer,S Fiorucci,H Flaecher,IM Fogarty Florang,P Ford,VB Francis,ED Fraser,F Froborg,T Fruth,RJ Gaitskell,NJ Gantos,D Garcia,VM Gehman,R Gelfand,J Genovesi,RM Gerhard,C Ghag,E Gibson,MGD Gilchriese,S Gokhale,B Gomber,TG Gonda,A Greenall,S Greenwood,G Gregerson,MGD van der Grinten,CB Gwilliam,CR Hall,D Hamilton,S Hans,K Hanzel,T Harrington,A Harrison,J Harrison,C Hasselkus,SJ Haselschwardt,D Hemer,SA Hertel,J Heise,S Hillbrand,O Hitchcock,C Hjemfelt,MD Hoff,B Holbrook,E Holtom,J YK Hor,M Horn,DQ Huang,TW Hurteau,CM Ignarra,MN Irving,RG Jacobsen,O Jahangir,SN Jeffery,W Ji,M Johnson,J Johnson,P Johnson,WG Jones

Journal

The European Physical Journal C

Published Date

2022/3

Erratum to: Searches for long-lived charged particles in pp collisions at = 7 and 8 TeV

CMS has uncovered an issue with the muon trigger simulation that impacts particles with| Q|= e/3. Consequently, we retract the cross section and mass limits, and related analysis details for| Q|= e/3 particles set in JHEP 07(2013) 122. The| Q|= 2e/3 results are not affected within the uncertainties. We are supplying in attachment revised plots for figure 10 and figure 11 plus a revised table 8 that have the| Q|= e/3 results removed.

Authors

S Chatrchyan,V Khachatryan,AM Sirunyan,A Tumasyan,W Adam,T Bergauer,M Dragicevic,J Erö,C Fabjan,M Friedl,R Frühwirth,VM Ghete,N Hörmann,J Hrubec,M Jeitler,W Kiesenhofer,V Knünz,M Krammer,I Krätschmer,D Liko,I Mikulec,D Rabady,B Rahbaran,C Rohringer,H Rohringer,R Schöfbeck,J Strauss,A Taurok,W Treberer-Treberspurg,W Waltenberger,C-E Wulz,N Shumeiko,S Alderweireldt,M Bansal,S Bansal,T Cornelis,EA De Wolf,X Janssen,A Knutsson,S Luyckx,L Mucibello,S Ochesanu,B Roland,R Rougny,H Van Haevermaet,P Van Mechelen,A Van Spilbeeck,F Blekman,S Blyweert,J D’Hondt,A Kalogeropoulos,J Keaveney,M Maes,A Olbrechts,S Tavernier,W Van Doninck,P Van Mulders,GP Van Onsem,I Villella,B Clerbaux,G De Lentdecker,L Favart,APR Gay,T Hreus,A Léonard,PE Marage,A Mohammadi,L Perniè,T Reis,T Seva,L Thomas,C Vander Velde,P Vanlaer,J Wang,V Adler,K Beernaert,L Benucci,A Cimmino,S Costantini,S Dildick,G Garcia,B Klein,J Lellouch,A Marinov,J Mccartin,AA Ocampo Rios,D Ryckbosch,M Sigamani,N Strobbe,F Thyssen,M Tytgat,S Walsh,E Yazgan,N Zaganidis,S Basegmez,C Beluffi,G Bruno,R Castello,A Caudron,L Ceard,C Delaere,T du Pree,D Favart,L Forthomme,A Giammanco,J Hollar,P Jez,V Lemaitre,J Liao,O Militaru,C Nuttens,D Pagano,A Pin,K Piotrzkowski,A Popov,M Selvaggi,N Beliy,T Caebergs,E Daubie,GH Hammad,GA Alves,M Correa Martins Junior,T Martins,ME Pol,MHG Souza,WL Aldá Júnior,W Carvalho,J Chinellato,A Custódio,EM Da Costa,D De Jesus Damiao,C De Oliveira Martins,S Fonseca De Souza,H Malbouisson,M Malek,D Matos Figueiredo,L Mundim,H Nogima,WL Prado Da Silva,A Santoro,A Sznajder,EJ Tonelli Manganote,A Vilela Pereira,CA Bernardes,FA Dias,TR Fernandez Perez Tomei,EM Gregores,C Lagana,F Marinho,PG Mercadante

Journal

Journal of High Energy Physics

Published Date

2022/11

Evidence for X(3872) in Pb-Pb Collisions and Studies of its Prompt Production at

The first evidence for X (3872) production in relativistic heavy ion collisions is reported. The X (3872) production is studied in lead-lead (Pb-Pb) collisions at a center-of-mass energy of s NN= 5.02 TeV per nucleon pair, using the decay chain X (3872)→ J/ψ π+ π−→ μ+ μ− π+ π−. The data were recorded with the CMS detector in 2018 and correspond to an integrated luminosity of 1.7 nb− 1. The measurement is performed in the rapidity and transverse momentum ranges| y|< 1.6 and 15< p T< 50 GeV/c. The significance of the inclusive X (3872) signal is 4.2 standard deviations. The prompt X (3872) to ψ 2 S yield ratio is found to be ρ Pb− Pb= 1.08±0.49 (stat)±0.52 (syst), to be compared with typical values of 0.1 for p p collisions. This result provides a unique experimental input to theoretical models of the X (3872) production mechanism, and of the nature of this exotic state.

Authors

Albert M Sirunyan,Armen Tumasyan,Wolfgang Adam,Federico Ambrogi,Thomas Bergauer,Marko Dragicevic,Janos Erö,A Escalante Del Valle,Martin Flechl,Rudolf Fruehwirth,Manfred Jeitler,Natascha Krammer,Ilse Krätschmer,Dietrich Liko,Thomas Madlener,Ivan Mikulec,Navid Rad,Jochen Schieck,Robert Schöfbeck,Markus Spanring,Wolfgang Waltenberger,C-E Wulz,Mateusz Zarucki,Vladimir Drugakov,J Suarez Gonzalez,MR Darwish,EA De Wolf,D Di Croce,X Janssen,T Kello,A Lelek,M Pieters,H Rejeb Sfar,H Van Haevermaet,P Van Mechelen,S Van Putte,F Blekman,ES Bols,SS Chhibra,J D’Hondt,J De Clercq,D Lontkovskyi,S Lowette,I Marchesini,S Moortgat,Q Python,S Tavernier,W Van Doninck,P Van Mulders,D Beghin,B Bilin,B Clerbaux,G De Lentdecker,H Delannoy,B Dorney,L Favart,A Grebenyuk,AK Kalsi,L Moureaux,A Popov,N Postiau,E Starling,L Thomas,C Vander Velde,P Vanlaer,D Vannerom,Tom Cornelis,Didar Dobur,Illia Khvastunov,Marek Niedziela,Christos Roskas,Kirill Skovpen,Michael Tytgat,Willem Verbeke,Basile Vermassen,Martina Vit,G Bruno,C Caputo,P David,C Delaere,M Delcourt,A Giammanco,V Lemaitre,J Prisciandaro,A Saggio,P Vischia,J Zobec,GA Alves,G Correia Silva,C Hensel,A Moraes,E Belchior Batista Das Chagas,W Carvalho,J Chinellato,E Coelho,EM Da Costa,GG Da Silveira,D De Jesus Damiao,C De Oliveira Martins,S Fonseca De Souza,H Malbouisson,J Martins,D Matos Figueiredo,M Medina Jaime,M Melo De Almeida,C Mora Herrera,L Mundim,H Nogima,WL Prado Da Silva,P Rebello Teles,LJ Sanchez Rosas,A Santoro,A Sznajder,M Thiel,EJ Tonelli Manganote,F Torres Da Silva De Araujo,A Vilela Pereira,CA Bernardes,L Calligaris,TR Fernandez Perez Tomei,EM Gregores,DS Lemos,PG Mercadante,SF Novaes,Sandra S Padula,A Aleksandrov,G Antchev,R Hadjiiska,P Iaydjiev,M Misheva,M Rodozov,M Shopova,G Sultanov,M Bonchev,A Dimitrov,T Ivanov,L Litov,B Pavlov,P Petkov,A Petrov,W Fang,X Gao,L Yuan,M Ahmad,Z Hu,Y Wang,GM Chen,HS Chen,M Chen,CH Jiang

Journal

Physical review letters

Published Date

2022/1/19

Erratum to: Search for new physics in dijet angular distributions using proton-proton collisions at and constraints on dark matter and other models

Sirunyan, AM, Tumasyan, A., Adam, W. et al. Erratum to: Search for new physics in dijet angular distributions using proton-proton collisions at and constraints on dark matter and other models. Eur. Phys. J. C 82, 379 (2022). https://doi. org/10.1140/epjc/s10052-022-10278-0

Authors

AM Sirunyan,A Tumasyan,W Adam,F Ambrogi,E Asilar,T Bergauer,J Brandstetter,E Brondolin,M Dragicevic,J Erö,A Escalante Del Valle,M Flechl,M Friedl,R Frühwirth,VM Ghete,J Grossmann,J Hrubec,M Jeitler,A König,N Krammer,I Krätschmer,D Liko,T Madlener,I Mikulec,E Pree,N Rad,H Rohringer,J Schieck,R Schöfbeck,M Spanring,D Spitzbart,A Taurok,W Waltenberger,J Wittmann,C-E Wulz,M Zarucki,V Chekhovsky,V Mossolov,J Suarez Gonzalez,EA De Wolf,D Di Croce,X Janssen,J Lauwers,M Pieters,M Van De Klundert,H Van Haevermaet,P Van Mechelen,N Van Remortel,S Abu Zeid,F Blekman,J D’Hondt,I De Bruyn,J De Clercq,K Deroover,G Flouris,D Lontkovskyi,S Lowette,I Marchesini,S Moortgat,L Moreels,Q Python,K Skovpen,S Tavernier,W Van Doninck,P Van Mulders,I Van Parijs,D Beghin,B Bilin,H Brun,B Clerbaux,G De Lentdecker,H Delannoy,B Dorney,G Fasanella,L Favart,R Goldouzian,A Grebenyuk,AK Kalsi,T Lenzi,J Luetic,T Seva,E Starling,C Vander Velde,P Vanlaer,D Vannerom,R Yonamine,T Cornelis,D Dobur,A Fagot,M Gul,I Khvastunov,D Poyraz,C Roskas,D Trocino,M Tytgat,W Verbeke,B Vermassen,M Vit,N Zaganidis,H Bakhshiansohi,O Bondu,S Brochet,G Bruno,C Caputo,A Caudron,P David,S De Visscher,C Delaere,M Delcourt,B Francois,A Giammanco,G Krintiras,V Lemaitre,A Magitteri,A Mertens,M Musich,K Piotrzkowski,L Quertenmont,A Saggio,M Vidal Marono,S Wertz,J Zobec,WL Aldá Júnior,FL Alves,GA Alves,L Brito,G Correia Silva,C Hensel,A Moraes,ME Pol,P Rebello Teles,E Belchior Batista Das Chagas,W Carvalho,J Chinellato,E Coelho,EM Da Costa,GG Da Silveira,D De Jesus Damiao,S Fonseca De Souza,H Malbouisson,M Medina Jaime,M Melo De Almeida,C Mora Herrera,L Mundim,H Nogima,LJ Sanchez Rosas,A Santoro,A Sznajder,M Thiel,EJ Tonelli Manganote

Journal

The European Physical Journal C

Published Date

2022/4/29

Searches for long-lived charged particles in pp collisions at root s= 7 and 8 TeV (vol 07, 122, 2013)

Authors

S Chatrchyan,V Khachatryan,AM Sirunyan,A Tumasyan,W Adam,T Bergauer,M Dragicevic,J Eroe,C Fabjan,M Friedl,R Fruehwirth,VM Ghete,N Hoermann,J Hrubec,M Jeitler,W Kiesenhofer,V Knuenz,M Krammer,I Kraetschmer,D Liko,I Mikulec,D Rabady,B Rahbaran,C Rohringer,H Rohringer,R Schoefbeck,J Strauss,A Taurok,W Treberer-Treberspurg,W Waltenberger,C-E Wulz,N Shumeiko,S Alderweireldt,M Bansal,S Bansal,T Cornelis,EA De Wolf,X Janssen,A Knutsson,S Luyckx,L Mucibello,S Ochesanu,B Roland,R Rougny,H Van Haevermaet,P Van Mechelen,A Van Spilbeeck,F Blekman,S Blyweert,J D'Hondt,A Kalogeropoulos,J Keaveney,M Maes,A Olbrechts,S Tavernier,W Van Doninck,P Van Mulders,GP Van Onsem,I Villella,B Clerbaux,G De Lentdecker,L Favart,APR Gay,T Hreus,A Leonard,PE Marage,A Mohammadi,L Pernie,T Reis,T Seva,L Thomas,C Vander Velde,P Vanlaer,J Wang,V Adler,K Beernaert,L Benucci,A Cimmino,S Costantini,S Dildick,G Garcia,B Klein,J Lellouch,A Marinov,J Mccartin,AA Ocampo Rios,Dirk Ryckbosch,M Sigamani,Nadja Strobbe,F Thyssen,Michael Tytgat,S Walsh,E Yazgan,N Zaganidis,S Basegmez,C Beluffi,G Bruno,R Castello,A Caudron,L Ceard,C Delaere,T du Pree,D Favart,L Forthomme,A Giammanco,J Hollar,P Jez,V Lemaitre,J Liao,O Militaru,C Nuttens,D Pagano,A Pin,K Piotrzkowski,A Popov,M Selvaggi,N Beliy,T Caebergs,E Daubie,GH Hammad,GA Alves,M Correa Martins Junior,T Martins,ME Pol,MHG Souza,WL Alda Junior,W Carvalho,J Chinellato,A Custodio,EM Da Costa,D De Jesus Damiao,C De Oliveira Martins,S Fonseca De Souza,H Malbouisson,M Malek,D Matos Figueiredo,L Mundim,H Nogima,WL Prado Da Silva,A Santoro,A Sznajder,EJ Tonelli Manganote,A Vilela Pereira,CA Bernardes,FA Dias,TR Fernandez Perez Tomei,EM Gregores,C Lagana,F Marinho,PG Mercadante

Journal

Journal of High Energy Physics

Published Date

2022

High-precision measurement of the W boson mass with the CDF II detector

The mass of the W boson, a mediator of the weak force between elementary particles, is tightly constrained by the symmetries of the standard model of particle physics. The Higgs boson was the last missing component of the model. After observation of the Higgs boson, a measurement of the W boson mass provides a stringent test of the model. We measure the W boson mass, MW, using data corresponding to 8.8 inverse femtobarns of integrated luminosity collected in proton-antiproton collisions at a 1.96 tera–electron volt center-of-mass energy with the CDF II detector at the Fermilab Tevatron collider. A sample of approximately 4 million W boson candidates is used to obtain MW=80,433.5±6.4stat±6.9syst=80,433.5±9.4 MeV/c2, the precision of which exceeds that of all previous measurements combined (stat, statistical uncertainty; syst, systematic uncertainty; MeV, mega–electron volts; c, speed of light in a vacuum …

Authors

CDF Collaboration†‡,Timo Aaltonen,Silvia Amerio,Dante Amidei,Anton Anastassov,Alberto Annovi,J Antos,G Apollinari,JA Appel,T Arisawa,A Artikov,J Asaadi,W Ashmanskas,B Auerbach,A Aurisano,F Azfar,W Badgett,T Bae,A Barbaro-Galtieri,VE Barnes,BA Barnett,P Barria,P Bartos,M Bauce,F Bedeschi,S Behari,G Bellettini,J Bellinger,D Benjamin,A Beretvas,A Bhatti,KR Bland,B Blumenfeld,A Bocci,A Bodek,D Bortoletto,J Boudreau,A Boveia,L Brigliadori,C Bromberg,E Brucken,J Budagov,HS Budd,K Burkett,G Busetto,P Bussey,P Butti,A Buzatu,A Calamba,S Camarda,M Campanelli,B Carls,D Carlsmith,R Carosi,S Carrillo,B Casal,M Casarsa,A Castro,P Catastini,D Cauz,V Cavaliere,A Cerri,L Cerrito,YC Chen,M Chertok,G Chiarelli,G Chlachidze,K Cho,D Chokheli,A Clark,C Clarke,ME Convery,J Conway,M Corbo,M Cordelli,CA Cox,DJ Cox,M Cremonesi,D Cruz,J Cuevas,R Culbertson,N d’Ascenzo,M Datta,P de Barbaro,L Demortier,M Deninno,M D’Errico,F Devoto,A Di Canto,B Di Ruzza,JR Dittmann,S Donati,M D’Onofrio,M Dorigo,A Driutti,K Ebina,R Edgar,A Elagin,R Erbacher,S Errede,B Esham,S Farrington,JP Fernández Ramos,R Field,G Flanagan,R Forrest,M Franklin,JC Freeman,H Frisch,Y Funakoshi,C Galloni,AF Garfinkel,P Garosi,H Gerberich,E Gerchtein,S Giagu,V Giakoumopoulou,K Gibson,CM Ginsburg,N Giokaris,P Giromini,V Glagolev,D Glenzinski,M Gold,D Goldin,A Golossanov,G Gomez,G Gomez-Ceballos,M Goncharov,O González López,I Gorelov,AT Goshaw,K Goulianos,E Gramellini,C Grosso-Pilcher,J Guimaraes da Costa,SR Hahn,JY Han,F Happacher,K Hara,M Hare,RF Harr,T Harrington-Taber,K Hatakeyama,C Hays,J Heinrich,M Herndon,A Hocker,Z Hong,W Hopkins

Journal

Science

Published Date

2022/4/8

The LUX-ZEPLIN (LZ) radioactivity and cleanliness control programs (vol 80, 1044, 2020)

The reference to the article is Manuscript ID EPJC-20-06-042 from the internal review perspective. The reference to the article as published, is: (Table presented.).

Authors

DS Akerib,CW Akerlof,D Yu Akimov,A Alquahtani,SK Alsum,TJ Anderson,N Angelides,HM Araujo,A Arbuckle,JE Armstrong,M Arthurs,H Auyeung,S Aviles,X Bai,AJ Bailey,J Balajthy,S Balashov,J Bang,MJ Barry,D Bauer,P Bauer,A Baxter,J Belle,P Beltrame,J Bensinger,T Benson,EP Bernard,A Bernstein,A Bhatti,A Biekert,TP Biesiadzinski,HJ Birch,B Birrittella,KE Boast,AI Bolozdynya,EM Boulton,B Boxer,R Bramante,S Branson,P Bras,M Breidenbach,CAJ Brew,JH Buckley,VV Bugaev,R Bunker,S Burdin,JK Busenitz,R Cabrita,JS Campbell,C Carels,DL Carlsmith,B Carlson,MC Carmona-Benitez,M Cascella,C Chan,JJ Cherwinka,AA Chiller,C Chiller,NI Chott,A Cole,J Coleman,D Colling,RA Conley,A Cottle,R Coughlen,G Cox,WW Craddock,D Curran,A Currie,JE Cutter,JP da Cunha,CE Dahl,S Dardin,S Dasu,J Davis,TJR Davison,L de Viveiros,N Decheine,A Dobi,JEY Dobson,E Druszkiewicz,A Dushkin,TK Edberg,WR Edwards,BN Edwards,J Edwards,MM Elnimr,WT Emmet,SR Eriksen,CH Faham,A Fan,S Fayer,S Fiorucci,H Flaecher,IM Florang,P Ford,VB Francis,ED Fraser,F Froborg,T Fruth,RJ Gaitskell,NJ Gantos,D Garcia,VM Gehman,R Gelfand,J Genovesi,RM Gerhard,C Ghag,E Gibson,MGD Gilchriese,S Gokhale,B Gomber,TG Gonda,A Greenall,S Greenwood,G Gregerson,MGD van der Grinten,CB Gwilliam,CR Hall,D Hamilton,S Hans,K Hanzel,T Harrington,A Harrison,J Harrison,C Hasselkus,SJ Haselschwardt,D Hemer,SA Hertel,J Heise,S Hillbrand,O Hitchcock,C Hjemfelt,MD Hoff,B Holbrook,E Holtom,JY-K Hor,M Horn,DQ Huang,TW Hurteau,CM Ignarra,MN Irving,RG Jacobsen,O Jahangir,SN Jeffery,W Ji,M Johnson,J Johnson,P Johnson,WG Jones

Journal

EUROPEAN PHYSICAL JOURNAL C

Published Date

2022

Professor FAQs

What is Duncan Carlsmith's h-index at University of Wisconsin-Madison?

The h-index of Duncan Carlsmith has been 119 since 2020 and 238 in total.

What are Duncan Carlsmith's top articles?

The articles with the titles of