Accelerator beam data commissioning equipment and procedures ...
Introduction to Beam Physics and Accelerator...
Transcript of Introduction to Beam Physics and Accelerator...
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home.fnal.gov/~stancari/apufe15
Giulio StancariFermilab
Introduction to Beam Physics and Accelerator Technology
Università degli Studi di FerraraDipartimento di Fisica e Scienze della Terra
18-22 May 2015
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An overview
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Questions driving current research
• What can we learn about nature from experiments at accelerators?
• Can we understand and control the behavior of intense charged-particle beams?
• Are there new ways to design accelerators?
• What technologies will improve performance and reduce cost?
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Main applications of accelerators
• Nuclear and particle physics- synchrotrons, linacs, storage rings, colliders, ...• Biology and material science- synchrotron radiation, neutrons, free electron lasers, ...• Medicine- radiation treatment, hadron therapy, diagnostic isotope
production, ...• Manufacturing processes
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
The field of Accelerator Physics: a concept map
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Purposeluminosity, brilliance,intensity, purity, other
Beamphysics
Acceleratortechnology
Machineoperations
Single-particledynamics
Multi-particledynamics
Self fields
Wake fields,impedance
Beam-beamforces
Particlesources
Confinementand focusing,
magnets
Acceleration,rf cavities
Superconductivityand cryogenics
Vacuum
Radiationprotection
Diagnostics
Synchrotronradiation
Particle-matterinteractions
Detectors
Polarizationdynamics
Cooling Beammanipulations
Emittancedilution
Injection andextraction
Mechanicalstructures Alignment
VibrationsPower
converters
Data acquisitionand controls
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
What do accelerator researchers talk about? A word cloud
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Text from 1381 abstracts submitted to the 6th International Particle Accelerator Conference, Richmond, VA, USA, May 2015, <www.ipac15.org>
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Resources
• Textbooks• Schools• Internships• Journals• Conferences
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More information and links on course web site:<home.fnal.gov/~stancari/apufe15>
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The Fermilab accelerator complex
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Where is Fermilab?
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
The Fermilab campus
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Main particle physics laboratory in USThousands of international collaborators1700 employees27-km2 site
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Fermilab accelerator complex
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Ion source, radio-frequency quadrupole, beam transport
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H- sources35 keV to 750 keV65 mA
RFQ focuses and accelerates quickly to avoid space-charge blowup
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Linac
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Serves Booster, Neutron Therapy Facility, and Muon Test Area
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Booster
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Stripping injection (H- to protons)Combined-function magnets (steering and focusing)Rapid-cycling synchrotron (15 Hz)468 m circumference400 MeV to 8 GeV
Delivers beam to Main Injector and to 8-GeV neutrino target
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Recycler
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Permanent magnetsFixed 8-GeV energy3.3 km circumference
Accumulates protons during Main Injector ramp
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Main Injector
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Ramping synchrotron (1.3 s)8 GeV to 120 GeV3.3 km circumference
Main Injector magnet ramp
Beam intensity in Recycler
Fast extraction to neutrino target (450 kW record so far)Slow resonant extraction to fixed-target experiments
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Target stations
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Lithium lens was used for antiproton production
NuMI horn
Challenges:energy deposition, kW to MWactivation
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Muon Delivery Ring
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Will be used to separate muons from other particles in a few turns
Storage ring474 m circumference
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
The Fermilab accelerator complex in more detail
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<http://www-bdnew.fnal.gov/operations/rookie_books/rbooks.html>
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Neutrino beam lines
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Muon g-2 experiment
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muon-g-2.fnal.gov
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Muon-to-electron conversion experiment
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mu2e.fnal.gov
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Limitations and challenges
• Study of neutrinos and rare decays requires intense primary beams- particle losses and activation must be minimized- energy deposition can damage components- beam instabilities limit maximum intensity
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Accelerator technologies at Fermilab
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Accelerator technologies at Fermilab
• Superconducting radiofrequency cavities
• Superconducting magnets
• Power targets
• Scientific computing
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Beam physics research
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Beam physics research facility
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IOTA/ASTA<asta.fnal.gov>
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Beam physics research: IOTA / ASTA
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
1.3-GHz rf gunCs2Te cathode
263-nm laser3000 micropulses @ 3 MHz
5 Hz rep. rate
srf Tesla-typebooster cavities
Tesla type III+ cryomodule8 9-cell cavities
5-MeV e-
3.2 nC/bunch 20-50 MeV 50-300 MeV
ASTA photoinjector
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
High-energy beam lines and IOTA (under construction)
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50-300 MeV e-
from injector
325-MHzRFQ
p source50 keV, 40 mA
IOTA p beam2.5 MeV, 8 mA
Integrable OpticsTest Accelerator
16 m
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Main research areas
• In general, what kinds of dynamical systems are stable and robust against perturbations?• Can intrinsically nonlinear accelerators be designed, built, and
operated?• Will nonlinear integrable lattices allow accelerators to exceed
their present intensity limitations?• Do we understand the dynamics of intense charged-particle
beams under the influence of self fields?• What kinds of radiation are generated by short electron pulses?
What are their applications?
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Longitudinal dynamics in rf fields
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0 5 10 15−100
−50
0
50
100
phase [rad]
dE [M
eV]
Longitudinal dynamicswithout acceleration(stationary buckets)
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0 5 10 15
−100
−50
0
50
100
phase [rad]
dE [M
eV]
Longitudinal dynamicswith acceleration
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Nonlinear dynamics in accelerators
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Transverse dynamicswith sextupole
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Transverse dynamicswith octupole
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Transverse dynamicswith McMillan lens, Q = 0.618
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Transverse dynamicswith McMillan lens, Q = 0.25
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Space-charge fields and electron-beam lenses
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
What’s an electron lens?
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•Pulsed, magnetically confined, low-energy electron beam•Circulating beam affected by electromagnetic fields generated by electrons•Current-density profile shaped by cathode and electrode geometry•Stability provided by strong axial magnetic fields
circulating beam electrons
5-kV, 1-A electron gunthermionic cathode
200-ns rise time gun solenoid
main solenoid
collectoroverlap region
Example: Tevatron electron lens
Shiltsev et al., Phys. Rev. ST Accel. Beams 11, 103501 (2008)
For IOTA, we plan to use a resistive solenoid in the overlap region
collector solenoid
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Electron lens (TEL-2) in the Tevatron tunnel
Electron gun Superconducting solenoid
Collector
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
Applications of electron lenses
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In the Fermilab Tevatron collider‣long-range beam-beam compensation (tune shift of individual bunches)‣Shiltsev et al., Phys. Rev. Lett. 99, 244801 (2007)
‣abort-gap cleaning (for years of regular operations)‣Zhang et al., Phys. Rev. ST Accel. Beams 11, 051002 (2008)
‣studies of head-on beam-beam compensation‣Stancari and Valishev, FERMILAB-CONF-13-046-APC
‣demonstration of halo scraping with hollow electron beams‣Stancari et al., Phys. Rev. Lett. 107, 084802 (2011)
Presently, used in RHIC at BNL for head-onbeam-beam compensation, luminosity improvements‣G. Robert-Demolaize, X. Gu, IPAC15
Current areas of research‣generation of nonlinear integrable lattices in the Fermilab Integrable Optics Test Accelerator‣hollow electron beam scraping of protons in LHC‣R. Bruce, IPAC15
‣long-range beam-beam compensationas charged, current-carrying “wires” for LHC‣A. Valishev, IPAC15
‣to generate tune spread for Landau dampingof instabilities before collisions in LHC
CDF
DZero
TEL-‐‑2
TEL-‐‑1
0.98-‐‑TeVprotons
0.98-‐‑TeVantiprotons
2 km
Tevatron electron lenses
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Giulio Stancari I Introduction to Beam Physics and Accelerator Technology UniFE | 18-22 May 2015
The Fermilab electron-lens test stand
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Electron gun Collector
Solenoids