Presentation is loading. Please wait.

Presentation is loading. Please wait.

Cool Muon Colliders Studies at Columbia University & Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Cool Muon Colliders Studies at Columbia University & Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt."— Presentation transcript:

1 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders Studies at Columbia University & Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt (DESY/Zeuten) Halina Abramowitz(Tel Aviv University) Summer Students: Christos Georgiou Daniel Greenwald Yujin Ning Inna Shpiro Will Serber

2 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Outline Muon Colliders Motivation –History Physics –Higgs, neutrino physics, new & old physics Cooling obstacle –Ionization cooling –Frictional cooling

3 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea History Concept first proposed to Budker & Skrinsky in 60’s and early 70’s Ionization cooling developed by Skrinsky & Parkhomchuk in 1981 Furthered by Neuffer & Palmer resulting in formation of Muon Collider collaboration in 1995

4 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea The Future Lepton ColliderLepton Collider clean but limited in energy by synchrotron radiation  1/m^4 Hardron ColliderHardron Collider higher energy Mp~2000xMe –1/3-1/10 energy taking part in collision –Difficult to separate the underlying event Muon ColliderMuon Collider –Not limited by synchrotron radiation M  ~200xMe –Easily scaleable –Compact machines

5 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea

6 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Livingston Curve

7 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Muon Collider in Perspective

8 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Physics Motivation  +  - couple directly to Higgs –S channel Muons can be polarized (20% polarization will be achievable) –High beam resolution If proven technology machine scalable –High mass resonances, technicolour, SUSY… Cool muons can be used as a source of ’s HIGGS FACTORY

9 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Higgs Factory

10 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Higgs Properties Scan 0.0015fb -1 /point 1 year of running at L =1.5x10 31 cm -2 s -1 (0.15fb -1 )/year to measure Higgs mass to 1-2 MeV

11 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Light Higgs  h=2-3 MeV  h=2-3 MeV for tan  <2  h=2-500 MeV for tan  ~50

12 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Resolving Mass Degeneracies

13 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea No Higgs @ LHC?? With 10fb-1 of lumi devoted to threshold scan:  +  - W+W-  m(W)=20MeV  +  - t+t-  m(t)=200MeV  +  - Zh  m(h)=140MeV  +  - Zh  m(h)=140MeV

14 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Supersymmetry M=1TeV requires collider of 3-4TeV CMS Heavy SUSY scalar pair production is p-wave suppresse M=1TeV requires collider of 3-4TeV CMS 50fb -1 can lead to  M(  MeV for M(  eV & M(v)=500,300 GeV

15 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Cooling Motivation   produced by intense p beam on target 2.  captured by strong focusing field 3.  to  Resulting muons occupy large & diffuse phase space

16 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Ionization Cooling Transverse Cooling Muons lose energy by dE/dx & replaced longitudinally by RF High field solenoids High field solenoids low Z absorbers low Z absorbers

17 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Longitudinal Cooling Ionization cooling using a wedge absorber + dispersion Exchange emittance between transverse & longitudinal direction

18 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Frictional Cooling Bring muons to a kinetic energy (T) range where dE/dx increases with T Constant E-field applied to muons resulting in equilibrium energy

19 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Problems/Comments: large dE/dx @ low kinetic energy low average density Apply to get below the dE/dx peak  has the problem of Muonium formation  dominates over e-stripping  in all gases except He  has the problem of Atomic capture  calculated up to 80 eV not measured below ~1KeV Cool  ’s extracted from gas cell T=1  s so a scheme for reacceleration must be developed

20 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Basic Design

21 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Muon Motion in Cooling Cell

22 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Target Optimization Want low energy muons hence need to optimize pion production accordingly for: –Proton Driver Energy –Target Material –Target Dimensions –Target Orientation PeripheralCentral

23 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Magnet Capture PeripheralCentral    +ve & -ve in same channel +ve & -ve in same channel Separate charges at sourceSeparate charges at source p p

24 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Phase Rotation Apply simple E-field form : Optimize muon yield as a function of t1,t2 & Length of the phase rotation region t1t2 Emax

25 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea

26 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Multiple Scattering To date simulations only considered continuous dE/dx May turn out that component of E-field parallel to B-field needed Technically difficult because of large angle scatters at low energies

27 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea PSI Experiment Experiment study Lamb Shift in Muonic Atoms Muon Spectrum 10-40KeV 5T Magnet with D=20cm bore

28 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Nevis Setup

29 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Simulation @ Nevis Vary E-field, density & length of gas cell Simulation with no Multiple Scattering E-field parallel to B- field so muons do not stop

30 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea

31 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea

32 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Goals of Experiment Measure X-ray released from capture in Gas Atom Check understanding of energy loss, multiple scattering Measure  - capture cross section at low energies in He & H2

33 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Nevis lab: Multipurpose Vacuum Chamber Fast Logic Readout MCP Detector X-ray MWPC development underway

34 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea MWPC X-ray Detector 4 channel prototype Possible extension to tracker – track decay e- from captured  -

35 http://www.nevis.columbia.edu/~galea/mucos Cool Muon Colliders: Caltech October 9, 2001 Columbia University/Nevis Labs Raphael Galea Summary Muon Colliders promise a bright future for HEP –Physics Factory, Higgs, ’s, s-channel resonances Major hurdle is cooling but efforts are going forward with a plan to demonstrate emittance exchange Exciting alternative concept for muon cooling –Frictional Cooling –Possibility to cool both signs at once –Experiment to measure  - capture cross section planned…..STAY TUNED

Download ppt "Cool Muon Colliders Studies at Columbia University & Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt."

Similar presentations

First results from the ATLAS experiment at the LHC

First results from the ATLAS experiment at the LHC
December 10, 2008 TJRParticle Refrigerator1 The Particle Refrigerator Tom Roberts Muons, Inc. A promising approach to using frictional cooling for reducing.

December 10, 2008 TJRParticle Refrigerator1 The Particle Refrigerator Tom Roberts Muons, Inc. A promising approach to using frictional cooling for reducing.
WIN 2002why a muon collider? 1 Why a muon collider? What will we learn? Mary Anne Cummings Northern Illinois Center for Accelerator and Detector Development.

WIN 2002why a muon collider? 1 Why a muon collider? What will we learn? Mary Anne Cummings Northern Illinois Center for Accelerator and Detector Development.
Use of G EANT 4 in CMS AIHENP’99 Crete, 12-16 April 1999 Véronique Lefébure CERN EP/CMC.

Use of G EANT 4 in CMS AIHENP’99 Crete, April 1999 Véronique Lefébure CERN EP/CMC.
International Muon Ionization Cooling Experiment Edward McKigney Imperial College RAL March 25, 2002 Physics Motivation and Cooling Introduction.

International Muon Ionization Cooling Experiment Edward McKigney Imperial College RAL March 25, 2002 Physics Motivation and Cooling Introduction.
Frictional Cooling Studies at Columbia University &Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt (DESY/Zeuthen) Halina Abramowitz (Tel Aviv.

Frictional Cooling Studies at Columbia University &Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt (DESY/Zeuthen) Halina Abramowitz (Tel Aviv.
Neutral Particles. Neutrons Neutrons are like neutral protons. –Mass is 1% larger –Interacts strongly Neutral charge complicates detection Neutron lifetime.

Neutral Particles. Neutrons Neutrons are like neutral protons. –Mass is 1% larger –Interacts strongly Neutral charge complicates detection Neutron lifetime.
Introduction to Hadronic Final State Reconstruction in Collider Experiments Introduction to Hadronic Final State Reconstruction in Collider Experiments.

Introduction to Hadronic Final State Reconstruction in Collider Experiments Introduction to Hadronic Final State Reconstruction in Collider Experiments.
Alain Blondel MICE: Constraints on the solenoids 2.Field Homogeneity: 10 -2 or 10 -3 ? this will be dictated by the detector requirements. TPG will be.

Alain Blondel MICE: Constraints on the solenoids 2.Field Homogeneity: or ? this will be dictated by the detector requirements. TPG will be.
Frictional Cooling Studies at Columbia University/Nevis Labs Raphael Galea, Allen Caldwell + Stefan Schlenstedt (DESY/Zeuthen) Halina Abramowitz (Tel Aviv.

Frictional Cooling Studies at Columbia University/Nevis Labs Raphael Galea, Allen Caldwell + Stefan Schlenstedt (DESY/Zeuthen) Halina Abramowitz (Tel Aviv.
Μ-Capture, Energy Rotation, Cooling and High-pressure Cavities David Neuffer Fermilab.

Μ-Capture, Energy Rotation, Cooling and High-pressure Cavities David Neuffer Fermilab.
Kirk McDonald Monday, 28th May 2001 1 Report of the International Working Group on Muon Beamlines Bruno Autin, Roberto Cappi, Rob Edgecock, Kirk McDonald,

Kirk McDonald Monday, 28th May Report of the International Working Group on Muon Beamlines Bruno Autin, Roberto Cappi, Rob Edgecock, Kirk McDonald,
Frictional Cooling MC Collaboration Meeting June 11-12/2003 Raphael Galea.

Frictional Cooling MC Collaboration Meeting June 11-12/2003 Raphael Galea.
Basic Measurements: What do we want to measure? Prof. Robin D. Erbacher University of California, Davis References: R. Fernow, Introduction to Experimental.

Basic Measurements: What do we want to measure? Prof. Robin D. Erbacher University of California, Davis References: R. Fernow, Introduction to Experimental.
Transfer reactions Resonant Elastic scattering Inelastic scattering: GR.

Transfer reactions Resonant Elastic scattering Inelastic scattering: GR.
NuFact04 July26-August 1, 2004 Osaka University, Osaka, Japan Columbia University & the Max-Planck-Institute Review & Status of Frictional Cooling A. Caldwell,

NuFact04 July26-August 1, 2004 Osaka University, Osaka, Japan Columbia University & the Max-Planck-Institute Review & Status of Frictional Cooling A. Caldwell,
Frictional Cooling TRIUMF Seminar July 22, 2002 Studies at Columbia University &Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt (DESY/Zeuthen)

Frictional Cooling TRIUMF Seminar July 22, 2002 Studies at Columbia University &Nevis Labs Raphael Galea Allen Caldwell Stefan Schlenstedt (DESY/Zeuthen)
Frictional Cooling NUFACT03 5-11 June, 2003 Studies at Columbia University/Nevis Labs Raphael Galea, Allen Caldwell + Stefan Schlenstedt (DESY/Zeuthen)

Frictional Cooling NUFACT June, 2003 Studies at Columbia University/Nevis Labs Raphael Galea, Allen Caldwell + Stefan Schlenstedt (DESY/Zeuthen)
Low Energy Muon Cooling : Frictional Cooling Studies at Columbia University &Nevis Labs Raphael Galea Allen.

Low Energy Muon Cooling : Frictional Cooling Studies at Columbia University &Nevis Labs Raphael Galea Allen.
WIN'05, June 7 2005A. Klier - Muon Collider Physics1 Physics at a Future Muon Collider Amit Klier University of California, Riverside WIN’05 – Delphi,

WIN'05, June A. Klier - Muon Collider Physics1 Physics at a Future Muon Collider Amit Klier University of California, Riverside WIN’05 – Delphi,

Similar presentations

Ads by Google