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相关论文: Progress in the Next Linear Collider Design

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The Large Hadron electron Collider (LHeC) is designed to move the field of deep inelastic scattering (DIS) to the energy and intensity frontier of particle physics. Exploiting energy recovery technology, it collides a novel, intense…

高能物理 - 实验 · 物理学 2022-09-20 P. Agostini , H. Aksakal , S. Alekhin , P. P. Allport , N. Andari , K. D. J. Andre , D. Angal-Kalinin , S. Antusch , L. Aperio Bella , L. Apolinario , R. Apsimon , A. Apyan , G. Arduini , V. Ari , A. Armbruster , N. Armesto , B. Auchmann , K. Aulenbacher , G. Azuelos , S. Backovic , I. Bailey , S. Bailey , F. Balli , S. Behera , O. Behnke , I. Ben-Zvi , M. Benedikt , J. Bernauer , S. Bertolucci , S. S. Biswal , J. Blümlein , A. Bogacz , M. Bonvini , M. Boonekamp , F. Bordry , G. R. Boroun , L. Bottura , S. Bousson , A. O. Bouzas , C. Bracco , J. Bracinik , D. Britzger , S. J. Brodsky , C. Bruni , O. Brüning , H. Burkhardt , O. Cakir , R. Calaga , A. Caldwell , A. Calıskan , S. Camarda , N. C. Catalan-Lasheras , K. Cassou , J. Cepila , V. Cetinkaya , V. Chetvertkova , B. Cole , B. Coleppa , A. Cooper-Sarkar , E. Cormier , A. S. Cornell , R. Corsini , E. Cruz-Alaniz , J. Currie , D. Curtin , M. D'Onofrio , J. Dainton , E. Daly , A. Das , S. P. Das , L. Dassa , J. de Blas , L. Delle Rose , H. Denizli , K. S. Deshpande , D. Douglas , L. Duarte , K. Dupraz , S. Dutta , A. V. Efremov , R. Eichhorn , K. J. Eskola , E. G. Ferreiro , O. Fischer , O. Flores-Sánchez , S. Forte , A. Gaddi , J. Gao , T. Gehrmann , A. Gehrmann-De Ridder , F. Gerigk , A. Gilbert , F. Giuli , A. Glazov , N. Glover , R. M. Godbole , B. Goddard , V. Gonçalves , G. A. Gonzalez-Sprinberg , A. Goyal , J. Grames , E. Granados , A. Grassellino , Y. O. Gunaydin , Y. C. Guo , V. Guzey , C. Gwenlan , A. Hammad , C. C. Han , L. Harland-Lang , F. Haug , F. Hautmann , D. Hayden , J. Hessler , I. Helenius , J. Henry , J. Hernandez-Sanchez , H. Hesari , T. J. Hobbs , N. Hod , G. H. Hoffstaetter , B. Holzer , C. G. Honorato , B. Hounsell , N. Hu , F. Hug , A. Huss , A. Hutton , R. Islam , S. Iwamoto , S. Jana , M. Jansova , E. Jensen , T. Jones , J. M. Jowett , W. Kaabi , M. Kado , D. A. Kalinin , H. Karadeniz , S. Kawaguchi , U. Kaya , R. A. Khalek , H. Khanpour , A. Kilic , M. Klein , U. Klein , S. Kluth , M. Köksal , F. Kocak , M. Korostelev , P. Kostka , M. Krelina , J. Kretzschmar , S. Kuday , G. Kulipanov , M. Kumar , M. Kuze , T. Lappi , F. Larios , A. Latina , P. Laycock , G. Lei , E. Levitchev , S. Levonian , A. Levy , R. Li , X. Li , H. Liang , V. Litvinenko , M. Liu , T. Liu , W. Liu , Y. Liu , S. Liuti , E. Lobodzinska , D. Longuevergne , X. Luo , W. Ma , M. Machado , S. Mandal , H. Mäntysaari , F. Marhauser , C. Marquet , A. Martens , R. Martin , S. Marzani , J. McFayden , P. Mcintosh , B. Mellado , F. Meot , A. Milanese , J. G. Milhano , B. Militsyn , M. Mitra , S. Moch , M. Mohammadi Najafabadi , S. Mondal , S. Moretti , T. Morgan , A. Morreale , P. Nadolsky , F. Navarra , Z. Nergiz , P. Newman , J. Niehues , E. A. Nissen , M. Nowakowski , N. Okada , G. Olivier , F. Olness , G. Olry , J. A. Osborne , A. Ozansoy , R. Pan , B. Parker , M. Patra , H. Paukkunen , Y. Peinaud , D. Pellegrini , G. Perez-Segurana , D. Perini , L. Perrot , N. Pietralla , E. Pilicer , B. Pire , J. Pires , R. Placakyte , M. Poelker , R. Polifka , A. Polini , P. Poulose , G. Pownall , Y. A. Pupkov , F. S. Queiroz , K. Rabbertz , V. Radescu , R. Rahaman , S. K. Rai , N. Raicevic , P. Ratoff , A. Rashed , D. Raut , S. Raychaudhuri , J. Repond , A. H. Rezaeian , R. Rimmer , L. Rinolfi , J. Rojo , A. Rosado , X. Ruan , S. Russenschuck , M. Sahin , C. A. Salgado , O. A. Sampayo , K. Satendra , N. Satyanarayan , B. Schenke , K. Schirm , H. Schopper , M. Schott , D. Schulte , C. Schwanenberger , T. Sekine , A. Senol , A. Seryi , S. Setiniyaz , L. Shang , X. Shen , N. Shipman , N. Sinha , W. Slominski , S. Smith , C. Solans , M. Song , H. Spiesberger , J. Stanyard , A. Starostenko , A. Stasto , A. Stocchi , M. Strikman , M. J. Stuart , S. Sultansoy , H. Sun , M. Sutton , L. Szymanowski , I. Tapan , D. Tapia-Takaki , M. Tanaka , Y. Tang , A. T. Tasci , A. T. Ten-Kate , P. Thonet , R. Tomas-Garcia , D. Tommasini , D. Trbojevic , M. Trott , I. Tsurin , A. Tudora , I. Turk Cakir , K. Tywoniuk , C. Vallerand , A. Valloni , D. Verney , E. Vilella , D. Walker , S. Wallon , B. Wang , K. Wang , K. Wang , X. Wang , Z. S. Wang , H. Wei , C. Welsch , G. Willering , P. H. Williams , D. Wollmann , C. Xiaohao , T. Xu , C. E. Yaguna , Y. Yamaguchi , Y. Yamazaki , H. Yang , A. Yilmaz , P. Yock , C. X. Yue , S. G. Zadeh , O. Zenaiev , C. Zhang , J. Zhang , R. Zhang , Z. Zhang , G. Zhu , S. Zhu , F. Zimmermann , F. Zomer , J. Zurita , P. Zurita

A possible solution to realize a conventional positron source driven by a several-GeV electron beam for the International Linear Collider is proposed. A 300 Hz electron linac is employed to create positrons with stretching pulse length in…

The advantage of the linac-ring type electron proton collider is that it allows for the straightforward construction of $\gamma$p collider. In a $\gamma$p collider high energy photons can be generated from Compton backscattering of laser…

加速器物理 · 物理学 2019-04-08 Zafer Nergiz , Saleh Sultansoy , Husnu Aksakal , Frank Zimmermann

We present recent developments in the diagnostic study of heavy gauge bosons at future $pp$ (CERN LHC) and $e^+e^-$ (NLC) colliders with the emphasis on the model independent determination of gauge couplings of $Z'$ to quarks and leptons.…

高能物理 - 唯象学 · 物理学 2009-09-25 M. Cvetic

Laser plasma accelerators have the potential to reduce the size of future linacs for high energy physics by more than an order of magnitude, due to their high gradient. Research is in progress at current facilities, including the BELLA…

加速器物理 · 物理学 2013-10-01 C. G. R. Geddes , J. -L. Vay , C. B. Schroeder , E. Esarey , W. P. Leemans

A linear electron-positron collider operating at TeV scale energies will provide high precision measurements and allow, for example, precision studies of the Higgs boson as well as searches for physics beyond the standard model. A future…

加速器物理 · 物理学 2019-09-04 Erik Adli

A high-resolution, intratrain position feedback system has been developed to achieve and maintain collisions at the proposed future electron-positron International Linear Collider (ILC). A prototype has been commissioned and tested with a…

Dipole modes are the main cause of transverse emittance dilution in the Japanese Linear Collider / Next Linear Collider (JLC/NLC). A diagnostic setup has been built in order to investigate them. The method is based on using a coaxial wire…

The Future Circular Collider is a new proposed collider at CERN with centre-of-mass energies around 100 TeV in the pp mode. Ongoing studies aim at assessing its physics potential and technical feasibility. Here we focus on updates in…

高能物理 - 唯象学 · 物理学 2016-11-23 N. Armesto , A. Dainese , D. d'Enterria , S. Masciocchi , C. Roland , C. A. Salgado , M. van Leeuwen , U. A. Wiedemann

An unprecedented positron average current is required to fit the luminosity demands of future $e^+e^-$ high energy physics colliders. In addition, in order to access precision-frontier physics, these machines require positron polarization…

The construction of two electron linacs and an optical FEL system is proposed. This facility, which would serve primarily as a Higgs-boson collider factory, could be built in two stages, each with distinct physics objectives requiring…

高能物理 - 实验 · 物理学 2009-01-09 Radoje Belusevic

CLICdp, the CLIC detector and physics study, is an international collaboration presently composed of 23 institutions. The collaboration is addressing detector and physics issues for the future Compact Linear Collider (CLIC), a high-energy…

高能物理 - 实验 · 物理学 2019-08-13 Aharon Levy

It is widely accepted that the next lepton collider beyond a Higgs factory would require center-of-mass energy of the order of up to 15 TeV. Since, given reasonable space and cost restrictions, conventional accelerator technology reaches…

Chapter 15 in High-Luminosity Large Hadron Collider (HL-LHC) : Preliminary Design Report. The Large Hadron Collider (LHC) is one of the largest scientific instruments ever built. Since opening up a new energy frontier for exploration in…

加速器物理 · 物理学 2017-06-01 P. Fessia , S. Weisz

Extending the sensitivity to New Physics beyond the anticipated reach of the LHC is a prime aim of future colliders. This paper summarises the potential of an e+e- linear collider, at and beyond 1 TeV, using a realistic simulation of the…

高能物理 - 唯象学 · 物理学 2009-09-25 M. Battaglia , S. De Curtis , D. Dominici , S. Riemann

The ILC Technical Design Report documents the design of a 500 GeV linear collider, but does not specify the center-of-mass energy steps of operation for the collider. The ILC Parameters Joint Working Group has studied possible running…

We present the results of an improved Monte Carlo Glauber (MCG) model of relevance for collisions involving nuclei at center-of-mass energies of BNL RHIC ($\sqrt{s_{\rm NN}}=0.2$ TeV), CERN LHC ($\sqrt{s_{\rm NN}}=2.76$-$8.8$ TeV), and…

核实验 · 物理学 2019-02-18 Constantin Loizides , Jason Kamin , David d'Enterria

Lepton scattering is an established ideal tool for studying inner structure of small particles such as nucleons as well as nuclei. As a future high energy nuclear physics project, an Electron-ion collider in China (EicC) has been proposed.…

To probe physics of interest a decade after the LHC begins to take data, the Linear Collider will need to have the capability of performing precision measurements of masses and couplings. We discuss the demands that this places on its…

仪器与探测器 · 物理学 2007-05-23 Bruce A. Schumm

Chapter 12 in High-Luminosity Large Hadron Collider (HL-LHC) : Preliminary Design Report. The Large Hadron Collider (LHC) is one of the largest scientific instruments ever built. Since opening up a new energy frontier for exploration in…

加速器物理 · 物理学 2017-05-31 V. Baglin , P. Chiggiato , P. Cruikshank , M. Gallilee , C. Garion , R. Kersevan