7 research outputs found
Introduction to mesoscopic electron transport
- Author
- A Szafer
- AA Odintsov
- AH MacDonald
- AM Chang
- AM Chang
- BI Halperin
- BJ Wees van
- BJ Wees van
- BJ Wees van
- BJ Wees van
- BJ Wees van
- BW Alphenaar
- C Bruder
- C Zhang
- CE Timmering
- CWJ Beenakker
- CWJ Beenakker
- CWJ Beenakker
- D Pfannkuche
- D Pfannkuche
- D Weinmann
- D Weinmann
- DB Chklovskii
- DV Averin
- DV Averin
- DV Averin
- EG Haanappel
- G Kirczenow
- G Klimeck
- G Klimeck
- G Muiller
- G Schön
- G Timp
- H Houten van
- H Houten van
- H Houten van
- H Pothier
- H Pothier
- HA Fertig
- HZ Zheng
- IA Devvatov
- IO Kulik
- J König
- J König
- J König
- J Nixon
- J Spector
- JG Williamson
- JK Jain
- K Flensberg
- K Jauregui
- K Mullen
- KA Matveev
- KF Berggren
- LI Glazman
- LI Glazman
- LI Glazman
- LJ Geerligs
- LP Kouwenhoven
- LP Kouwenhoven
- M Büttiker
- M Büttiker
- P Streda
- PL McEuen
- PL McEuen
- R Landauer
- R Landauer
- R Landauer
- RH Blick
- S Komiyama
- SE Barrett
- SE Laux
- SL Sondhi
- T Chakraborty
- TA Fulton
- TJ Thornton
- W Häusler
- Y Meir
- YV Sharvin
- Publication venue
- Springer Netherlands
- Publication date
- 01/01/1997
- Field of study
Obtaining nanostructured films of PbSe y S1–y solid solutions by chemical deposition
- Author
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- Field of study
Arylation of adamantanamines: VII. Copper(I)-catalyzed N-heteroarylation of adamantane-containing amines with halopyridines
- Author
- A Jirgensons
- A. D. Averin
- A. S. Abel
- AA Yakushev
- AD Averin
- AD Averin
- AS Abel
- B Gopalan
- B. S. Orlinson
- BS Gilligan
- D Ma
- DS Surry
- E. N. Savelyev
- G. M. Butov
- H Rao
- H Zhang
- I. A. Novakov
- I. P. Beletskaya
- IA Novakov
- IP Beletskaya
- IS Morozov
- J-P Corbet
- LN Lavrova
- M Yang
- M. V. Anokhin
- MV Anokhin
- MV Anokhin
- MV Anokhin
- NV Klimova
- O. A. Maloshitskaya
- OK Grigorova
- OK Grigorova
- TN Svenson
- YuV Popov
- Publication venue
- 'Pleiades Publishing Ltd'
- Publication date
- Field of study
Introduction to Mesoscopic Electron Transport
- Author
- A Szafer
- AA Odintsov
- AH MacDonald
- AM Chang
- AM Chang
- BI Halperin
- BJ Wees van
- BJ Wees van
- BJ Wees van
- BJ Wees van
- BJ Wees van
- BW Alphenaar
- C Bruder
- C Zhang
- CE Timmering
- CWJ Beenakker
- CWJ Beenakker
- CWJ Beenakker
- D Pfannkuche
- D Pfannkuche
- D Weinmann
- D Weinmann
- DB Chklovskii
- DV Averin
- DV Averin
- DV Averin
- EG Haanappel
- G Kirczenow
- G Klimeck
- G Klimeck
- G Muiller
- G Schön
- G Timp
- H Houten van
- H Houten van
- H Houten van
- H Pothier
- H Pothier
- HA Fertig
- HZ Zheng
- IA Devvatov
- IO Kulik
- J König
- J König
- J König
- J Nixon
- J Spector
- JG Williamson
- JK Jain
- K Flensberg
- K Jauregui
- K Mullen
- KA Matveev
- KF Berggren
- LI Glazman
- LI Glazman
- LI Glazman
- LJ Geerligs
- LP Kouwenhoven
- LP Kouwenhoven
- M Büttiker
- M Büttiker
- P Streda
- PL McEuen
- PL McEuen
- R Landauer
- R Landauer
- R Landauer
- RH Blick
- S Komiyama
- SE Barrett
- SE Laux
- SL Sondhi
- T Chakraborty
- TA Fulton
- TJ Thornton
- W Häusler
- Y Meir
- YV Sharvin
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 01/01/1997
- Field of study
Considerations and Options in the Treatment of Low Cardiac Output Syndrome and Vasoplegia After Congenital Heart Surgery
- Author
- A Agrawal
- A Appelbaum
- A Cavigelli-Brunner
- A Kimmoun
- A Mekontso-Dessap
- A Noto
- A Rhodes
- A Thajudeen
- A Treschan Tanja
- A Wang
- AC Chang
- AD Shapeton
- AG Cerillo
- AR Dingankar
- AR Hosseinpour
- AR Joffe
- B Levy
- B Levy
- C Neuhof
- CL Epting
- CS Nabzdyk
- CS Rinder
- CW Lillehei
- CW Mastropietro
- D De Backer
- D Garcia-Dorado
- DL Wessel
- DP Fudulu
- E Lechner
- E Vail
- ED Wittwer
- EL Wald
- EM Marwali
- EM Marwali
- EM Thorlacius
- ES Weiss
- ET Emrath
- F Brette
- F Qadri
- G Asimakopoulos
- G Landoni
- G Landoni
- G Papadopoulos
- G Scrascia
- G Wernovsky
- GC Beck
- GL Burton
- GT Wetzel
- GV Parr
- GW Fischer
- HK Chandler
- HK Surks
- I Iliopoulos
- IA Reid
- J Hummel
- JA Alten
- JB Weinberg
- JC Han
- JG Byrne
- JH Crawford
- JH Mehaffey
- JK Kirklin
- JL Brash
- JM Dieleman
- JP Jacobs
- JP Jacobs
- JP Ortoleva
- JS Pelletier
- K Averin
- KH Teoh
- KL Brown
- KM Ho
- KP Ulate
- KR Schumacher
- L Reich David
- LS Chawla
- M Argenziano
- M Egi
- M Gaies
- M Movsesian
- M Nagashima
- M Patarroyo
- MA Hazle
- MA Levin
- ME van Vessem
- MM Weiner
- MW Semler
- N Ducrocq
- NA Haas
- NA Haas
- NS Ghanayem
- PH Colson
- PJ Chai
- PK Suominen
- PM Wieruszewski
- PP Roeleveld
- R Chiletti
- R Gerrah
- RA Bronicki
- RF Furchgott
- RL Hickok
- RP Whitlock
- S Flores
- S Jochberger
- S Lambden
- S Omar
- S Omar
- S Shaefi
- S Wan
- SJ Roth
- SL Mullis-Jansson
- SM Robert
- SW Downing
- T Bhalla
- T Carrel
- TM Hoffman
- VJ Pappachan
- VV Lomivorotov
- WJ Gomes
- X Sun
- Z Papp
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- Field of study
Eisenmetalle
- Author
- A Burdese
- A Hoffmann
- A Janko
- A Takei
- AC Fraker
- AC Fraker
- AE Lord
- AF Giamei
- AG Rozno
- AJ Heckler
- AK Stewart
- AL Prill
- AM Barloga
- AM Weinstein
- AS Appleton
- AV Shovensin
- AW Fischer
- AW Fischer
- B Baranowski
- BA Wilcox
- BA Wilcox
- BF Belov
- BF Belov
- BF Belov
- BP Burylev
- BP Burylev
- BR Benner
- BS Berry
- C Antonione
- C Chambard
- C Petot
- C Wagner
- C Wells
- CB Alcock
- CB Alcock
- CE Ramsley
- CE Ramsley
- CJ Smithells
- CN Satterfield
- CW Sherman
- DA Leak
- DC Carmichael
- DF Stein
- DR Poirier
- DW Morgan
- E Ence
- E Sacris
- E Scheil
- E Schiirmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- E Schürmann
- EF Petrova
- EM Sacris
- EP Nechai
- ER Stover
- ES Filippov
- ES Kodes
- ES Kodes
- ES Tanskins
- ES Tanskins
- ES Tanskins
- ET Turkdogan
- ET Turkdogan
- F Kazinczy
- F Morin
- F Neumann
- F Neumann
- F Tödt
- FA Shunk
- FA Shunk
- FK Naumann
- FO Borgmann
- G Briggs
- G Euringer
- G Lütjering
- GF Bolling
- GJ Lloyd
- GM Vorob’ev
- Gmelins Handbuch der anorganischen Chemie Kobalt, Teil A
- Gmelins Handbuch der anorganischen Chemie Metallurgie des Eisens, 4
- GS Ershov
- H Borchers
- H Fabritius
- H Flender
- H Lafitau
- H Nozaki
- H Preisendanz
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenck
- H Schenk
- H Tuma
- H Wever
- H Witte
- H Witte
- H-D Kunze
- H-D Kunze
- H-D Kunze
- HA Hancock
- HA Wriedt
- HA Wriedt
- HC Fiedler
- HD Kunze
- HD Kunze
- HD Kunze
- HD Kunze
- HG Ellerbrock
- HH Grimes
- HH Stadelmaier
- HH Stadelmaier
- HH Stadelmaier
- HH Stadelmaier
- HH Stadelmaier
- HH Stadelmaier
- HH Stadelmaier
- HI Aaronson
- HI Aaronson
- HJ Grabke
- HJ Grabke
- HJ Grabke
- HJ Grabke
- HM Strong
- Hütte Taschenbuch für Eisenhüttenleute, 5
- IA Novokhatskij
- II Abrahamson
- II Kovenskij
- II Kovenskij
- IN Nilinskaya
- J Bockris
- J Bénard
- J Bérnard
- J Chipman
- J Chipman
- J Chipman
- J Comm-Nouguè
- J Singer
- JA Cordier
- JC Greenbank
- JC Rotaries
- JC Swartz
- JD Fast
- JE Bowers
- JE Hilliard
- JF Elliott
- JF Elliott
- JF Elliott
- JH Swisher
- JH Swisher
- JJ Au
- JP Depuydt
- JS Blakemore
- JS Blakemore
- K Bohnenkamp
- K Bungardt
- K Bungardt
- K Bungardt
- K Bungardt
- K Hauffe
- K Ono
- K Ono
- K Ono
- K Roesch
- K Schwerdtfeger
- K Suzuki
- KE Überg
- KH Lieser
- KH Lieser
- KH Lieser
- KJ Irvine
- Kunze 11.-D.
- KV Popov
- KW Lange
- KW Lange
- KW Lange
- L Boery
- L Messulam
- L Meyer
- L Zwell
- LC Brown
- LJ Hütter
- LJ Hütter
- LJ Hütter
- LJ Hütter
- LK Borusevich
- LS Moroz
- M Fukusima
- M Hansen
- M Hansen
- M Hempel
- M Nacken
- M Weinstein
- MA Krishtel
- MA Matosyan
- MA Matosyan
- MC Cadeville
- ME Nicholson
- ME Nicholson
- Metals Handbook
- MH Mueller
- MI Bayazitov
- MJ Graham
- ML Borlera
- ML Hill
- ML Hill
- ML Pearce
- MM Rao
- MV Nevitt
- MV Nevitt
- O Kubaschewski
- O Kubaschewski
- O Nyquist
- O Rüdiger
- OD Gonzalez
- P Choh
- P Choh
- P Choh
- P Grieveson
- P Hoch
- PL Surman
- PV Gel’d
- R Barlow
- R Dus
- R Ebeling
- R Hales
- R Honda
- R Hussey
- R Juza
- R Kieffer
- R Kieffer
- RB McLellan
- RC Ruhl
- RD Pehlke
- RE Grace
- RF Campbell
- RG Blossey
- RG Blossey
- RG Mowers
- RJ Brigham
- RM Asimov
- RM Bozorth
- RP Elliott
- RP Elliott
- RP Smith
- RP Smith
- RP Smith
- RP Smith
- RP Smith
- RP Smith
- RP Smith
- RP Smith
- RR Zupp
- RW Fountain
- RW Fountain
- RW Fountain
- S Banya
- S Diamond
- S Goto
- S Zelouf
- SN Sumin
- T Bagshaw
- T Bagshaw
- T Boniszewski
- T Busch
- T Hehenkamp
- T Skosklewicz
- TA Ramanarayanan
- TB King
- VF Funke
- VG Paranjpe
- VN Eremenko
- VV Grushina
- W Dresler
- W Dresler
- W Eichenauer
- W Eichenauer
- W Eichenauer
- W Geller
- W Heller
- W Heller
- W Heller
- W Jellinghaus
- W Jellinghaus
- W Jolley
- W Jäniche
- W Köster
- W Köster
- W Köster
- W Patterson
- W Pitsch
- W Schwarz
- W Schwarz
- W Siegelin
- W Siegelin
- WA Fischer
- WA Fischer
- WA Fischer
- Werkstoff-Handbuch Stahl und Eisen
- WM Mueller
- WM Robertson
- WW Averin
- Y Nakada
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 01/01/1976
- Field of study
Search for a scalar or vector particle decaying into Zγ in p over(p, ̄) collisions at sqrt(s) = 1.96 TeV
- Author
- Abazov VM
- Abbott B
- Abolins M
- Acharya BS
- Adams M
- Adams T
- Aguilo E
- Ahsan M
- Alexeev GD
- Alkhazov G
- Alton A
- Alverson G
- Alves GA
- Anastasoaie M
- Ancu LS
- Andeen T
- Anderson S
- Andrieu B
- Anzelc MS
- Aoki M
- Arnoud Y
- Arov M
- Arthaud M
- Askew A
- Assis Jesus ACS
- Atramentov O
- Averin R
- Avila C
- Badaud F
- Bagby L
- Baldin B
- Bandurin DV
- Banerjee P
- Banerjee S
- Barberis E
- Barfuss A-F
- Bargassa P
- Baringer P
- Barreto J
- Bartlett JF
- Bassler U
- Bauer D
- Beale S
- Bean A
- Begalli M
- Begel M
- Belanger-Champagne C
- Bellantoni L
- Bellavance A
- Benitez JA
- Beri SB
- Bernardi G
- Bernhard R
- Bertram I
- Besançon M
- Beuselinck R
- Bezzubov VA
- Bhat PC
- Bhatnagar V
- Biscarat C
- Blazey G
- Blekman F
- Blessing S
- Bloch D
- Bloom K
- Boehnlein A
- Boline D
- Bolton TA
- Boos EE
- Borissov G
- Bose T
- Brandt A
- Brock R
- Brooijmans G
- Bross A
- Brown D
- Bu XB
- Buchanan NJ
- Buchholz D
- Buehler M
- Buescher V
- Bunichev V
- Burdin S
- Burnett TH
- Buszello CP
- Butler JM
- Calfayan P
- Calvet S
- Cammin J
- Carvalho W
- Casey BCK
- Castilla-Valdez H
- Chakrabarti S
- Chakraborty D
- Chan K
- Chan KM
- Chandra A
- Charles F
- Cheu E
- Chevallier F
- Cho DK
- Choi S
- Choudhary B
- Christofek L
- Christoudias T
- Cihangir S
- Claes D
- Clutter J
- Cooke M
- Cooper WE
- Corcoran M
- Couderc F
- Cousinou M-C
- Crépé-Renaudin S
- Cuplov V
- Cutts D
- da Motta H
- Das A
- Davies G
- de Jong SJ
- De La Cruz-Burelo E
- De Oliveira Martins C
- De K
- Degenhardt JD
- Demarteau M
- Demina R
- Denisov D
- Denisov SP
- Desai S
- Diehl HT
- Diesburg M
- Dominguez A
- Dong H
- Dudko LV
- Duflot L
- Dugad SR
- Duggan D
- Duperrin A
- Dyer J
- Dyshkant A
- Déliot F
- Eads M
- Edmunds D
- Ellison J
- Elvira VD
- Enari Y
- Eno S
- Ermolov P
- Evans H
- Evdokimov A
- Evdokimov VN
- Ferapontov AV
- Ferbel T
- Fiedler F
- Filthaut F
- Fisher W
- Fisk HE
- Fortner M
- Fox H
- Fu S
- Fuess S
- Gadfort T
- Galea CF
- Gallas E
- Garcia C
- Garcia-Bellido A
- Gavrilov V
- Gay P
- Geist W
- Gelé D
- Gerber CE
- Gershtein Y
- Gillberg D
- Ginther G
- Gollub N
- Goussiou A
- Grannis PD
- Greenlee H
- Greenwood ZD
- Gregores EM
- Grenier G
- Gris P
- Grivaz J-F
- Grohsjean A
- Grünendahl S
- Grünewald MW
- Guo F
- Guo J
- Gutierrez G
- Gutierrez P
- Gómez B
- Haas A
- Hadley NJ
- Haefner P
- Hagopian S
- Haley J
- Hall I
- Hall RE
- Han L
- Harder K
- Harel A
- Hauptman JM
- Hauser R
- Hays J
- Hebbeker T
- Hedin D
- Hegeman JG
- Heinson AP
- Heintz U
- Hensel C
- Herner K
- Hesketh G
- Hildreth MD
- Hirosky R
- Hobbs JD
- Hoeneisen B
- Hoeth H
- Hohlfeld M
- Hossain S
- Houben P
- Hu Y
- Hubacek Z
- Hynek V
- Iashvili I
- Illingworth R
- Ito AS
- Jabeen S
- Jaffré M
- Jain S
- Jakobs K
- Jarvis C
- Jesik R
- Johns K
- Johnson C
- Johnson M
- Jonckheere A
- Jonsson P
- Juste A
- Kajfasz E
- Kalk JM
- Karmanov D
- Kasper PA
- Katsanos I
- Kau D
- Kaushik V
- Kehoe R
- Kermiche S
- Khalatyan N
- Khanov A
- Kharchilava A
- Kharzheev YM
- Khatidze D
- Kim TJ
- Kirby MH
- Kirsch M
- Klima B
- Kohli JM
- Konrath J-P
- Kozelov AV
- Kraus J
- Kuhl T
- Kumar A
- Kupco A
- Kurča T
- Kuzmin VA
- Kvita J
- Lacroix F
- Lam D
- Lammers S
- Landsberg G
- Lebrun P
- Lee WM
- Leflat A
- Lellouch J
- Li J
- Li L
- Li QZ
- Lietti SM
- Lima JGR
- Lincoln D
- Linnemann J
- Lipaev VV
- Lipton R
- Liu Y
- Liu Z
- Lobodenko A
- Lokajicek M
- Love P
- Lubatti HJ
- Luna R
- Lyon AL
- Maciel AKA
- Mackin D
- Madaras RJ
- Magass C
- Magerkurth A
- Mal PK
- Malbouisson HB
- Malik S
- Malyshev VL
- Mao HS
- Maravin Y
- Martin B
- McCarthy R
- Melnitchouk A
- Mendoza L
- Mercadante PG
- Merkin M
- Merritt KW
- Meyer A
- Meyer J
- Millet T
- Mitrevski J
- Mommsen RK
- Mondal NK
- Moore RW
- Moulik T
- Muanza GS
- Mulhearn M
- Mundal O
- Mundim L
- Mättig P
- Nagy E
- Naimuddin M
- Narain M
- Naumann NA
- Neal HA
- Negret JP
- Neustroev P
- Nilsen H
- Nogima H
- Novaes SF
- Nunnemann T
- O'Dell V
- O'Neil DC
- Obrant G
- Ochando C
- Onoprienko D
- Oshima N
- Osman N
- Osta J
- Otec R
- Otero y Garzón GJ
- Owen M
- Padley P
- Pangilinan M
- Parashar N
- Park S-J
- Park SK
- Parsons J
- Partridge R
- Parua N
- Patwa A
- Pawloski G
- Penning B
- Perfilov M
- Peters K
- Peters Y
- Petteni M
- Piegaia R
- Piper J
- Pleier M-A
- Podesta-Lerma PLM
- Podstavkov VM
- Pogorelov Y
- Pol M-E
- Polozov P
- Pope BG
- Popov AV
- Potter C
- Prado da Silva WL
- Prosper HB
- Protopopescu S
- Pétroff P
- Qian J
- Quadt A
- Quinn B
- Rakitine A
- Rangel MS
- Ranjan K
- Ratoff PN
- Renkel P
- Reucroft S
- Rich P
- Rieger J
- Rijssenbeek M
- Ripp-Baudot I
- Rizatdinova F
- Robinson S
- Rodrigues RF
- Rominsky M
- Royon C
- Rubinov P
- Ruchti R
- Safronov G
- Sajot G
- Sanders MP
- Sanghi B
- Savage G
- Sawyer L
- Scanlon T
- Schaile D
- Schamberger RD
- Scheglov Y
- Schellman H
- Schliephake T
- Schwanenberger C
- Schwartzman A
- Schwienhorst R
- Sekaric J
- Severini H
- Shabalina E
- Shamim M
- Shary V
- Shchukin AA
- Shivpuri RK
- Siccardi V
- Simak V
- Sirotenko V
- Skubic P
- Slattery P
- Smirnov D
- Snow GR
- Snow J
- Snyder S
- Sonnenschein L
- Sopczak A
- Sosebee M
- Soustruznik K
- Spurlock B
- Stark J
- Steele J
- Stolin V
- Stoyanova DA
- Strandberg J
- Strandberg S
- Strang MA
- Strauss E
- Strauss M
- Strom D
- Ströhmer R
- Stutte L
- Sumowidagdo S
- Svoisky P
- Sznajder A
- Sánchez-Hernández A
- Söldner-Rembold S
- Tamburello P
- Tanasijczuk A
- Taylor W
- Tiller B
- Tissandier F
- Titov M
- Tokmenin VV
- Toole T
- Torchiani I
- Trefzger T
- Tsybychev D
- Tuchming B
- Tully C
- Tuts PM
- Unalan R
- Uvarov L
- Uvarov S
- Uzunyan S
- Vachon B
- van den Berg PJ
- Van Kooten R
- van Leeuwen WM
- Varelas N
- Varnes EW
- Vasilyev IA
- Vaupel M
- Verdier P
- Vertogradov LS
- Verzocchi M
- Villeneuve-Seguier F
- Vint P
- Vokac P
- Von Toerne E
- Voutilainen M
- Wagner R
- Wahl HD
- Wang L
- Wang MHLS
- Warchol J
- Watts G
- Wayne M
- Weber G
- Weber M
- Welty-Rieger L
- Wenger A
- Wermes N
- Wetstein M
- White A
- Wicke D
- Wilson GW
- Wimpenny SJ
- Wobisch M
- Wood DR
- Wyatt TR
- Xie Y
- Yacoob S
- Yamada R
- Yasuda T
- Yatsunenko YA
- Yin H
- Yip K
- Yoo HD
- Youn SW
- Yu J
- Zeitnitz C
- Zhao T
- Zhou B
- Zhu J
- Zielinski M
- Zieminska D
- Zieminski A
- Zivkovic L
- Zutshi V
- Zverev EG
- Åsman B
- Ćwiok M
- Publication venue
- Publication date
- 01/01/2009
- Field of study
We present a search for a narrow scalar or vector resonance decaying into Zγ with a subsequent Z boson decay into a pair of electrons or muons. The data for this search were collected with the DØ detector at the Fermilab Tevatron p over(p, ̄) collider at a center of mass energy sqrt(s) = 1.96 TeV. Using 1.1 (1.0) fb-1 of data, we observe 49 (50) candidate events in the electron (muon) channel, in good agreement with the standard model prediction. From the combination of both channels, we derive 95% C.L. upper limits on the cross section times branching fraction (σ × B) into Zγ. These limits range from 0.19 (0.20) pb for a scalar (vector) resonance mass of 600 GeV/ c2 to 2.5 (3.1) pb for a mass of 140 GeV/ c2