cockcroft education lectures 2009m w poole introduction to accelerators part 1 m w poole director,...
TRANSCRIPT
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Cockcroft Education Lectures 2009 M W Poole
Introduction to AcceleratorsPart 1
M W PooleDirector, ASTeC
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Cockcroft Education Lectures 2009 M W Poole
Daresbury Campus
Cockcroft Institute
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Cockcroft Education Lectures 2009 M W Poole
Basic Acceleration Principle
A voltage drop accelerates charged particles
Electrostatic acceleration in cathode ray tubes:
• televisions
• computer monitors
• oscilloscopes
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Cockcroft Education Lectures 2009 M W Poole
Birth of Particle Physics and Accelerators
• 1909 Geiger/Marsden MeV backscattering - Manchester
• 1919 Rutherford disintegrates Nitrogen - Manchester
• 1927 Rutherford demands accelerator development
Particle accelerator studies start - Cavendish
• 1929 Cockcroft and Walton start high voltage experiments
• 1932 The prize achieved: Cockcroft + Walton split Li !!!!
‘High’ voltage generation is UK achievement at this stage – brute force
UK grid initiated (132 kV) and industrial base started
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Cockcroft Education Lectures 2009 M W Poole
Walton, Rutherford, Cockcroft - 1932
Start of the modern era – particle accelerators
NOBEL PRIZE !
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Cockcroft Education Lectures 2009 M W Poole
Cockcroft-Walton Generator
ISIS 665 kV
Removed 2005
Greinacher 1921See our Atrium !
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Cockcroft Education Lectures 2009 M W Poole
Electrostatic Monster: the NSF• 1936 van der Graaff pioneers electrostatic solution (2.5 MeV)
• 1961 6 MeV machine at Liverpool (Manchester collaboration)
• 1972 Design Study of 20-30 MV facility at Daresbury
• 1974 Civil construction starts
• 1983 NSF commissioned
• 1992 Closure
World’s highest voltage machine
No nuclear physics replacement
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Cockcroft Education Lectures 2009 M W Poole
Daresbury Nuclear Structure Facility (NSF)
Last of the line !
Van de Graaf 20+ MV
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Cockcroft Education Lectures 2009 M W Poole
Seriously high voltages !
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Cockcroft Education Lectures 2009 M W Poole
Resonant Accelerator Concept
The acceleration occurs in the electric field between cylindrical drift tubes.
The RF power must be synchronised with the motion of the electrons, so that acceleration occurs in every cavity.
This naturally produces bunches of electrons
Wideroe - 1928Linear Accelerator = LINAC
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Cockcroft Education Lectures 2009 M W Poole
Recirculation Concept - Cyclotron
Radio frequency alternating voltage
Hollow metal drift tubes
time t =0
time t =½ RF period
SynchronisationNecessary
D-shaped RF cavities
Orbit radius increaseswith energy
Expensive/impractical forhigh energies (1 GeV)
Lawrence:4” – 80 keV11” - 1.2 MeV
q v B = mv2 / r
r = mv / qBT = 2pm / qB
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Cockcroft Education Lectures 2009 M W Poole
Phase Synchronism
Synchronous particle (A) crosses cavity after one turn at same phase relative to RF peak
Particle B delayed behind A receives higher accelerating voltage and therefore after next turn returns nearer or even ahead of A
Particles undergo harmonic synchrotron oscillations about A as they orbit the accelerator
NOTE: This leads to BUNCHING about A
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Cockcroft Education Lectures 2009 M W Poole
Accelerator Developments
• Cyclotrons have huge magnets - spiral orbits
• Also complicated by relativistic mass increase
• Solution:
Raise magnetic field strength as particle energy increases
Produces annular orbit geometry
SYNCHROTRON
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Cockcroft Education Lectures 2009 M W Poole
Synchrotron Ring Schematic
Focusing magnets
Vacuumtube
Accelerating cavity
Bending magnets
Bending and focussing often combined
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Cockcroft Education Lectures 2009 M W Poole
Magnet Focusing
FQUADs (shown above) focus the beam horizontally.
DQUADs (as above, rotated 90º) focus the beam vertically.
Quadrupole magnets are used to focus the beam.
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Cockcroft Education Lectures 2009 M W Poole
RF Accelerating Cavities
Single cell example
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Cockcroft Education Lectures 2009 M W Poole
Klystrons
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Cockcroft Education Lectures 2009 M W Poole
Simple Accelerator Lattice
Dipole
F Quadrupole
D Quadrupole
FODO Cellfinite dispersion
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Cockcroft Education Lectures 2009 M W Poole
Betatron Oscillations
Transverse motion of particles in both planes is harmonic - as they deviate from the design orbit a restoring force increases with displacement
The particles follow betatron oscillations as they orbit the accelerator
The amplitude and wavelength of this motion is characterised by the beta functions of the accelerator
Off-energy particles follow a dispersion function
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Cockcroft Education Lectures 2009 M W Poole
Phase Space
Beta function givestransverse envelope
Emittance measuresphase space area
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Cockcroft Education Lectures 2009 M W Poole
The Double Bend Achromat Cell
Dipole
Quadrupoles
Sextupoles
Dipole
Quadrupole
Dispersive Path
Dipole
Non - Dispersive
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Cockcroft Education Lectures 2009 M W Poole
Lattice Functions - DBA Example
Lattice Functions
-10
-5
0
5
10
15
20
25
30
0 10 20 30 40 50Distance (m)
Bet
a fu
nctio
ns (
m)
0.0
0.2
0.4
0.6
0.8
1.0
Dis
pers
ion
(m)
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Cockcroft Education Lectures 2009 M W Poole
Sextupole Magnets
Chromatic Correction
(off energy particles)
In finite dispersion region focussing matches energy
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Cockcroft Education Lectures 2009 M W Poole
Penalty: Collapse of Dynamic Stability
No sextupoles Corrected to zero chromaticity
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Cockcroft Education Lectures 2009 M W Poole
Four families
Six families
Eight families
Recovery of Stability - Sextupoles in Patterns
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Cockcroft Education Lectures 2009 M W Poole
Early (UK) History
(Synchro)CyclotronsBerkeley (Lawrence) 60” (1939)Liverpool 37” 20 MeV (1939)Harwell 110” 175 MeV (1949)Liverpool 156” 380 MeV (1954) (extraction)
LinacsHarwell 3.5 MeV (1947) 15 (Mullard), 55 (Met Vickers), 136 MeV
SynchrotronsWoolwich Arsenal - Goward & Barnes 8 MeV (1946) (Betatron 1943)Malvern 30 MeV (1950)Oxford 125 MeV (1952)Birmingham 1 GeV p (1953)Glasgow 350 MeV (1954)NIMROD RAL 7 GeV p (1960)NINA DL 5 GeV (1966)
Clatterbridge Oncology Centre65 MeV
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Cockcroft Education Lectures 2009 M W Poole
Origins of Daresbury Laboratory
• 1957 Wilkinson proposes HE electron synchrotron
• 1960 Cockcroft + Cassels propose 4 GeV version
• 1961 Cockcroft proposes Cheshire site !!!!
• 1962 NINA approved - £3.5M
Many local sites considered
• 1963 Daresbury selected
HEI driving force: Liverpool/Manchester/Glasgow/Sheffield/ (Lancaster)
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Cockcroft Education Lectures 2009 M W Poole
Daresbury Laboratory - 1964
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Cockcroft Education Lectures 2009 M W Poole
Construction of NINA - 1964
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Cockcroft Education Lectures 2009 M W Poole
A Bad Day at the Office !
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Cockcroft Education Lectures 2009 M W Poole
Grand Opening of NINA - 1967
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Cockcroft Education Lectures 2009 M W Poole
The NINA Synchrotron
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Cockcroft Education Lectures 2009 M W Poole
Chadwick’s 75th Birthday – Daresbury Event
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Cockcroft Education Lectures 2009 M W Poole
NINA Closure
• UK joined SPS at CERN on condition domestic programme terminated (NINA AND NIMROD)
• NINA switched off in 1977
• Alternative major facilities already sought - and found:
• NSF (discussed)
• ISIS and SRS (part 2 next week)
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Cockcroft Education Lectures 2009 M W Poole
EM Radiation from Accelerating Charge
Non-relativistic charge source
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Cockcroft Education Lectures 2009 M W Poole
Fundamentals of Radiation Emission
• Any charge that is accelerated emits radiation
• Properties calculated since 1897 (Larmor)
Lienard and Schott studied relativistic particles on circular trajectories:
P E4/R2
• So this applies to accelerated beams of charged particles in a ring (synchrotron)
SYNCHROTRON RADIATION
=> Severe losses and energy restrictions eg NINA
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Cockcroft Education Lectures 2009 M W Poole
Relativistic Emission
Relativistic Emission Cone
Electron rest frame
Laboratory frame
Transforming between frames
tan = -1sin (1 + cos ) -1
if = 90
then: = -1
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Cockcroft Education Lectures 2009 M W Poole
Emission from Bends
First observed 1947GE Synchrotron
Electron
Cone angle = 1/Acceleration
= E/m0c2
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Cockcroft Education Lectures 2009 M W Poole
Synchrotron Radiation Spectrum
R
1/
1/ R1/
Observer
e-
33
4
c
R Pulse Length
(electron transit arc - photon transit chord)
For 2 GeV, 1.2 T:
R ~ 5.5 m, ~ 4000
Wavelength ~ 0.1 nm33
R4
Typical wavelength
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Cockcroft Education Lectures 2009 M W Poole
Universal Synchrotron Radiation Curve
1E+05
1E+06
1E+07
1E+08
1E+09
1E+10
1E+11
1E+12
1E+13
0.0001 0.001 0.01 0.1 1 10 100w/wc
Sp
ectr
al P
hot
on F
lux
(ph
oton
s/s/
mra
d/0
.1%
ban
dw
idth
/GeV
/100
mA
)
ww
ww
c/
3/5c
b13 du)u(KEI10x46.2N
In units of photons/s/mrad/0.1% bandwidth
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Cockcroft Education Lectures 2009 M W Poole
Accelerators in Space
Crab Nebula
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Cockcroft Education Lectures 2009 M W Poole
Synchrotron Radiation –New Particle Accelerator Applications
Accelerating charged particles emit electromagnetic radiation– very inconvenient for circular electron accelerators !
• 1972 Scientific use started at Daresbury by Manchester group
• 1974 SRS Design Study (NINA replacement – 2nd Generation)
• 1980 SRS commissioning (world’s first dedicated x-ray source)
• 1987 High brightness upgrade
• Many pioneering additions: – superconducting wigglers undulators precision beam steering high currents
• 2008 Project termination
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Cockcroft Education Lectures 2009 M W Poole
Daresbury SRS
• Design studies completed 1975 – anticipate NINA end
• Based on an electron storage ring
• World’s first dedicated x-ray source
• First user programme 1981
• Major UK success story for 27 years
• Pioneering developments and upgrades
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Cockcroft Education Lectures 2009 M W Poole
Daresbury SRS Concept
Storage RingBooster
Linac
Beamlines
80 keV
12 MeV 600
MeV
World’s first dedicated x-ray source
2 GeV
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Cockcroft Education Lectures 2009 M W Poole
Daresbury Laboratory
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Cockcroft Education Lectures 2009 M W Poole
SRS Storage Ring Parameters
Electron Energy 2 GeV
Operating Current 300 mA
Total Circumference 96 m
Revolution Frequency 3.1 MHz
Pressure in Beam Tube 10-12 atm
Number of Dipoles 16
Dipole Current at 2 GeV 1,420 A
Dipole Field 1.2 T
RF Power Input to Beam 250 kW
Stored Beam Lifetime 30 hours
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Cockcroft Education Lectures 2009 M W Poole
SRS Components - High Technology
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Cockcroft Education Lectures 2009 M W Poole
A Synchrotron as an Injector
SRS Booster
600 MeV
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Cockcroft Education Lectures 2009 M W Poole
SRS Lifetime (Example)
Operating mode is fill storage ring every morning24/7 running (6000 hours annual)
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Cockcroft Education Lectures 2009 M W Poole
Real Synchrotron Radiation
Beam port
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Cockcroft Education Lectures 2009 M W Poole
Synchrotron Radiation Spectrum
1E+05
1E+06
1E+07
1E+08
1E+09
1E+10
1E+11
1E+12
1E+13
0.0001 0.001 0.01 0.1 1 10 100w/wc
Sp
ectr
al P
hot
on F
lux
(ph
oton
s/s/
mra
d/0
.1%
ban
dw
idth
/GeV
/100
mA
)
Broad band source
Covers huge spectral range
Range set by electron energy and bending field strength
Flux/power far exceeds previous sources
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Cockcroft Education Lectures 2009 M W Poole
From Source to Detector
• Light from source can be split for more than one experiment
• Light focused using mirrors
• Narrow range of wavelengths selected by monochromator
• Light illuminates crystal sample and is diffracted
• Diffraction pattern observed with detector
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Cockcroft Education Lectures 2009 M W Poole
Wide Range of Applications
FMV Virus Structure (1990) Light Harvesting Complex(photosynthesis)
Protein Crystallography
LIGA
Materials science
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Cockcroft Education Lectures 2009 M W Poole
The Nobel Prize: F1 ATPase structure
• Sir John Walker shared 1997 Nobel Prize for Chemistry - structure of the F1 ATPase enzyme, using the SRS
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Cockcroft Education Lectures 2009 M W Poole
High Field Insertion Devices
1.0E+10
1.0E+11
1.0E+12
1.0E+13
1.0E+14
1.0 10.0 100.0 1000.0 10000.0 100000.0
Photon Energy (eV)Sp
ectr
al P
hoto
n F
lux
(pho
tons
/s/m
rad/
0.1%
ban
dwid
th)
1.2 T Magnet6.0 T Magnet
Normal Straight
With Insertion Device
SRS Superconducting Wavelength Shifter6.0 Tesla
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Cockcroft Education Lectures 2009 M W Poole
Alternative Compact Light Source
Designed at DaresburySold by Oxford Instruments to IBM in 1990 - lithographyOperated successfully for 10 years
700 MeV
4.5 T
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Cockcroft Education Lectures 2009 M W Poole
Big Accelerators - CERN
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Cockcroft Education Lectures 2009 M W Poole
Types of Accelerator
• Linear Accelerators (Linacs)• Multi-cell concepts TW and SW
• Cyclotrons• Low energy limit
• Synchrocyclotrons• RF variation compensates mass change – extends energy reach
• Betatrons• Beam is ‘secondary’ of a transformer - magnetic field limit
• Synchrotrons and Storage Rings• Ramped magnetic field matches energy – annular design
• Other variants• Microtron RFQ FFAG ???
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Cockcroft Education Lectures 2009 M W Poole
Accelerator Physics Challenges
• Classical electrodynamics - Maxwell (mainly !)• Lorentz forces: Deflection and acceleration
• Single particle dynamics• transport, stability, nonlinear dynamics - tracking & differential algebra
• Multi-particle dynamics• collective effects, wake fields, space charge, coherent instabilities
Production Transport Injection Acceleration Extraction Manipulation Delivery
Analytic modelling + Computer simulation (Start-to-End)
(Major code development)
Experimental verification (Commissioning !)
fs nm
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Cockcroft Education Lectures 2009 M W Poole
Accelerator Technologies
Sources - electron guns photoinjectors, ion sources, ……..
Magnets - EM / SCM / PM DC / AC / PulsedHarmonic / Periodic Power supplies
RF System - structures power sources
Vacuum - UHV modelling diagnostics pumping
Diagnostics - fast high precision non-interactive
Geodesics - alignment feedback
Radiation - losses shielding personnel safety
Dumps - spallation targets collimators
Engineering - mechanical electrical civil
Controls - advanced process control
NB Multi-disciplinary teams. Resource issues - construction/operation.
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Cockcroft Education Lectures 2009 M W Poole
Concluding Remarks
• Origins of particle accelerators discussed
• Reason for Daresbury Lab (and CI) existence explained
• Applications beyond particle physics highlighted
• Additional concepts mentioned
• Next week: surveys of various advanced applications