Higgs Factory, do we really need more than 50 km?

Slides:

Advertisements

Similar presentations

Advanced accelerator research with focus on plasma wakefield acceleration, University of Oslo, Erik Adli, University of Oslo, August 2014,

Advertisements

European Strategy for Particle Physics 2013 Preparatory group->Strategy group Individual town meetings Town meeting in Krakow: september 2012 Drafting.

ATLAS Experiment at CERN. Why Build ATLAS? Before the LHC there was LEP (large electron positron collider) the experiments at LEP had observed the W and.

Cosmology The Origin and Future of the Universe Part 2 From the Big Bang to Today.

Particle Physics and Cosmology

Future Directions in Experimental Nuclear and Particle Physics Barry Barish Bacher Symposium Caltech 5-Nov-05 Bacher at the Caltech Synchrotron Robert.

24/04/2007ALICE – Masterclass Presentation1 ALICE Hannah Scott University of Birmingham.

The International Linear Collider Barry Barish iThemba Cape Town 21-Oct-05.

The International Linear Collider Barry Barish IUPAP General Assembly Cape Town 26-Oct-05.

The Big Bang, the LHC and the Higgs Boson Dr Cormac O’ Raifeartaigh (WIT)

2 Lasers: Centimeters instead of Kilometers ? If we take a Petawatt laser pulse, I=10 21 W/cm 2 then the electric field is as high as E=10 14 eV/m=100.

CERN, 21 February 2001 Egil Lillestøl, CERN & Univ. of Bergen Recorded at

1 Some predictions and experiment prospects of the heavy ion physics at LHC C. Kobdaj, Y. Yan and K. Khosonthongkee School of Physics, Institute of Science.

My Chapter 30 Lecture.

What are we made of ? Neutrinos Building a Particle Collider The ring is 27km round and on average 100m underground CERN – LEP, LHC.

Particle Physics : Now and the Future David Milstead Stockholms Universitet The most important questions in modern physics The most important experiment.

Introduction to CERN David Barney, CERN Introduction to CERN Activities Intro to particle physics Accelerators – the LHC Detectors - CMS.

The BTeV Project at Fermilab Talk to DOE/Fermi Group Jan. 11, 2001 Introduction – Joel Butler Tracking detectors – David Christian Particle Identification.

Higgs factories based on Photon Colliders Prof. Mayda M. Velasco Northwestern University ICAN CERN June 27-28, 2013.

A singularity formed by a previous collapsed Universe? Multiple Universes? We just don’t know… YET What Caused It?

What IS Fundamental???  Many new particles were discovered with the advent of particle accelerators …are they ALL fundamental??? Baryons: particles with.

Re-creating the Big Bang Experiments at the Large Hadron Collider Dr Cormac O’ Raifeartaigh (WIT) Albert Einstein Ernest Walton.

Introduction to CERN Activities

Heritage The first electron synchrotron in Europe was constructed in Glasgow in the 1950s E = 300 MeV.

Heritage The first electron synchrotron in Europe was constructed in Glasgow in the 1950s E = 300 MeV.

Introduction to Particle Physics I Sinéad Farrington 18 th February 2015.

The Standard Model of the elementary particles and their interactions

1 Particle Physics, The Mysteries of the Universe, and The LHC Nhan Tran Johns Hopkins University.

Anne Green The Large Hadron Collider and the search for dark matter The Large Hadron Collider and the search for dark matter.

Erik Adli CLIC Project Meeting, CERN, CH 1 Erik Adli Department of Physics, University of Oslo, Norway Input from: Steffen Doebert, Wilfried Farabolini,

1 LHCb CMS ALICE ATLAS The ATLAS experiment at the LHC 27 km.

Quiz Welcome to the MASTERCLASSES QUIZ! Rules of the Game 7 questions, 4 answers to choose (A,B,C,D) mark your answer on your answer sheet before the timer.

CERN Richard Jacobsson 1 Welcome to CERN!. CERN Richard Jacobsson 2 What is CERN? l European Organization for Nuclear Research, founded in 1954 l Currently.

Steering Group Meeting 10:30 – 12:30 am CDT Monday, July 23, 2007 Y2K.

LHC LARGE HADRON COLLIDER World’s largest and highest-energy particle accelerator. Built by the European Organization for Nuclear Research(CERN). To study.

Future Opportunities in Particle Physics Barry Barish Caltech DPF Meeting 13-Aug-2011 ILC.

PhD Topics at Novel Accelerator Group of Manchester Guoxing Xia 27 th June 2016.

Research and development toward a future Muon Collider Katsuya Yonehara Accelerator Physics Center, Fermilab On behalf of Muon Accelerator Program Draft.

Jayakar Thangaraj Fermilab Accelerator Advisory Committee November 7-9, 2011 PROTOPLASMA: Proton-driven wakefield experiment at Fermilab.

IoP Masterclass The Physics of Flavour at the Large Hadron Collider Tim Gershon University of Warwick March 30 th 2011.

IoP Masterclass The Physics of Flavour at the Large Hadron Collider Tim Gershon University of Warwick April 14 th 2010.

IoP Masterclass B PHYSICS Tim Gershon University of Warwick March 18 th 2009.

Compact Linear Collider

Let‘s see which energy level you can reach!

Stanford Linear Accelerator

Proton-driven plasma wakefield acceleration in hollow plasma

Introduction to CERN Activities

Electron acceleration behind self-modulating proton beam in plasma with a density gradient Alexey Petrenko.

Introduction to CERN Activities

Dr. D. Z. LI & Prof. J. GAO Accelerator Center, IHEP

Proton driven plasma accelertion

Wakefield Accelerator

Matter vs. Antimatter The Question of Symmetry

CEPC-SppC Accelerator CDR Copmpletion at the end of 2017

Particle Physics Theory

Okay, we got the Higgs. Is that all, then?

Requests of Future HEP e+/e-Facilities

Beyond the standard model

What’s the matter with antimatter?

Particle Physics Theory

Beyond the Higgs wan ahmad tajuddin wan abdullah

Frontiers of fundamental physics

Stanford Linear Accelerator

TeV Physics and ILC 何红建清华大学.

MC3 - Novel Particle Sources and Acceleration Techniques

SuperKEKB Proto-collaboration

Modern Studies of the Atom

MC3 - Novel Particle Sources and Acceleration Techniques

Impressions from Granada Open Symposium towards updating the European Strategy for Particle Physics J.Bernhard (EN-EA) EATM meeting – June 11th 2019.

Plasma : high electic field can accelerate electron and proton laser plasma accelerator can reduced size of future accelerator can produced particle beam.

Presentation transcript:

Higgs Factory, do we really need more than 50 km? Guoxing Xia 13th December 2016 13/12/2016 Manchester Accelerator Group X-mas Meeting

Big success of LHC run in 2016

What is next ? ???

LHC's Newest Data: A Victory For The Standard Model, Defeat For New Physics (http://www.forbes.com/sites/startswithabang/2016/12/02/lhcs-newest-data-a-victory-for-the-standard-model-defeat-for-new-physics/#ff4b8c962f51) What is dark matter made out of, and what’s the particle responsible for it? Why do we see CP-violation in the weak interactions, but not in the strong interactions? What is the nature of the matter-antimatter asymmetry, and what are the baryon-number-violating processes responsible for it? And why are the masses of these fundamental particles so different? Higgs is a key…

Beyond the LHC

CEPC-QINHUANGDAO

Do we really need more than 50 km Higgs factory? Can we make it smaller?

We have hopes Plasma accelerators may pave the way for a compact collider, especially for low mass Higgs factory Laser wakefield accelerator has successfully achieved the two stage acceleration in 2016 SLAC FACET have demonstrated (in the last two years) the high efficiency, high gradient plasma wakefield acceleration, for both electrons and positrons (in both uniform and hollow plasma-2016) AWAKE reached the first milestone 2 days ago, proton bunch density modulation!

AWAKE

Hollow plasma for good beam quality Multi bunch acceleration is possible and being investigated. Y. Li et al.

Finally, a compact Higgs factory