synchrotron radiation storage rings vic suller: camd louisiana & srs daresbury synchrotron...
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![Page 1: Synchrotron Radiation Storage Rings Vic Suller: CAMD Louisiana & SRS Daresbury Synchrotron Radiation Sources Past, Present and Future By Vic Suller](https://reader035.vdocument.in/reader035/viewer/2022062718/56649eb05503460f94bb5a7b/html5/thumbnails/1.jpg)
Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Synchrotron Radiation Sources
Past, Present and Future
By Vic Suller
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Contents
•The Origins of Synchrotron Radiation
•Synchrotron Radiation Characteristics
•Storage Rings as Sources
•Insertion Devices
•The Future with 4th Generation Sources
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Crab Nebula - the first Synchrotron source observed??
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
CAMD in Baton Rouge, LA
Center for Advanced Microstructures and Devices
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Accelerator Synchrotron Radiation
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
CBA .
Discovery of ElectronJJ ThompsonOctober 1897
Accelerated Charge RadiationLienard
July 1898
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Field lines from a stationary charge
Field lines from an accelerated charge
3
22
3
2
c
aq
dt
dU
3
22
3
2
c
aq
dt
dU
3
22
3
2
c
aq
dt
dU
ELECTROMAGNETIC RADIATION
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
z
y
x
Spatial distribution of radiationfrom a charge accelerated
along the z axis
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
CoilSteel
Vacuum chamber
Cross section of a Betatron
Principle of Betatron Acceleration
Acceleration by Induction - The Betatron
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Prediction of Energy loss by radiationin an accelerator
Iwanenko & Pomeranchuk June 1944
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
GEC(USA) electron accelerators 1946
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
First attempt to Detect Synchrotron Radiation
John Blewett 1947 – used a microwave receiver expecting Harmonics of the orbit frequency (100 MHz) - nothing found!
First correct theory of Synchrotron Radiation
Julian Schwinger 1947 – showed the importance of relativistic effects
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Light from the GE Synchrotron 1947
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Betatron - CERAMIC Synchrotron - GLASS
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Relativistic effects in Synchrotron Radiation
1. Contraction of the orbit in the electron frame
Result:- Orbit frequency increases by factor
2. Relativistic Doppler shift from the electron frame to the lab
Result:- Frequency further increases by factor 2
3. Relativistic forward focusing of the emission
Result:- Frequency further increases by factor
2
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
acceleration
Electron frame
acceleration
Lab frame
velocity
Relativistic focusing of Synchrotron Radiation
tan sin cos Transformation between frames:-
If 900 then
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Relativistic effects in Synchrotron Radiation (cont)
The effect of 3 relativistic processes upshifts the orbit frequency by
3
For example 2 GeV electrons in a 100m orbit
orbit frequency 3 MHz
= 3914 6.0 1010 100m 1.7 nm (0.7 keV)
For protons to radiate equivalently in a 100m orbit
Energy = 3.7 TeV and magnetic field = 10 kT
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Synchrotron Radiation Features
1. Continuum source from IR to X-rays
2. Source in a clean UHV environment
3. High Intensity and Brightness
4. Highly Polarized
5. Stable & controllable pulsed characteristics
…highly attractive for research applications!!!
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
The synchrotron radiation spectrum is described with reference to a characteristic (often called 'critical') wavelength , or photon energy
)()(
6.18
)(
)(59.5)(
23 GeVETeslaBGeVE
mRAo
c
)(
39.12)( o
c
cA
keV
where B is the bending magnetic field.
Synchrotron Radiation Features
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
When the radiation at a given wavelength is integrated over all angles of vertical emission the resultant Spectral Flux Intensity is given by
cc
GGeVEAId
dF
2
013 )()(1046.2 photons/sec/mr/0.1% bandwidth
c
G
is a numerical factor which essentially governs the shape of the spectrum.
Synchrotron Radiation Spectral Flux Intensity
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Synchrotron Radiation Spectra
E(GeV) R(m) B(T) c(Å) c(keV)
NSLS-VUV 0.74 1.91 1.3 25.9 0.48 HELIOS 0.7 0.52 4.5 8.5 1.5 LSU-CAMD 1.3 2.93 1.48 7.45 1.66 SPEAR-3 3.0 7.86 1.27 1.63 7.6 APS 7.0 39.0 0.60 0.63 19.6 CERN-LEP 100.0 3096 0.108 0.017 718.3
Examples of spectra produced by electron storage rings:-
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Flux Output
100000
1000000
1E+07
1E+08
1E+09
1E+10
1E+11
1E+12
1E+13
1E+14
1.0 10.0 100.0 1000.0 10000.0 100000.0 1000000.0
Photon Energy (eV)
Flu
x (p
hoto
ns/
s/m
rad
/0.1
%)
CAMD
APS
NSLS-VUV
Typical Synchrotron Radiation Spectra
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Typical Synchrotron Radiation Spectra 2
Flux Output
0
2E+12
4E+12
6E+12
8E+12
1E+13
1.2E+13
1.4E+13
1.6E+13
1.8E+13
1 10 100 1000 10000 100000 1000000
Photon Energy (eV)
Flu
x (
ph
oto
ns
/s/m
rad
/0.1
%)
APS
CAMD
VUV
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
1st Generation Synchrotron Radiation Sources
SOURCE COUNTRY TYPE ENERGY (GeV)
TANTALUS USA Storage Ring 0.24
SPEAR-1 USA Storage Ring 3.0
NINA UK Synchrotron 5.0
DESY Germany Synchrotron 6.0
BONN Germany Synchrotron 0.5
ACO France Storage Ring 0.54
VEPP-2m Russia Storage Ring 0.7
Originally built for some other purpose (1965 – 1975)
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
2nd Generation Synchrotron Radiation Sources
Dedicated, purpose designed (1975 – 1985)
Some examples:-
SOURCE COUNTRY ENERGY (GeV) Emittance nm rads
SOR-ring Japan 0.38 320
SRS UK 2.0 110
NSLS-VUV USA 0.744 88
NSLS-XR USA 2.5 80
BESSY-1 Germany 0.8 20
Photon Factory Japan 2.5 130
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
dddzdx
F4d = Brightness SpectralNotice that Brightness, as here defined, is often referred
to as Brilliance, with an accompanying incorrect use of the term brightness for the Spectral Flux Density. It is best to avoid confusion by using the well established radiometric definitions as given here.
Synchrotron Radiation Brightness
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Note that source Brightness as defined is anisotropic, the value depends on the source density distribution and on the observation angle. It is often more convenient to use, as a figure of merit, an average brightness which for dipole sources is defined
Average Spectral Brightness = /36.236.236.2
zx
ddF
is the vertically integrated flux, 2.36x is the fwhm of the horizontal electron beam size, 2.36z is the fwhm of the vertical electron beam size, and 2.36
/ is the fwhm of the photon emission angle in the vertical plane. The latter is a combination of the electron beam vertical divergence and the photon emission angle thus
ddF
2
2// 141.0
cz
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Radiation
Dispersion
Betatron oscillation
Initial momentum
Final momentum
RF restores
Radiation loss
Radiation excitation
Radiation damping
Radiation excitation and damping of oscillations
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
The equilibrium of the excitation and the damping of the betatron oscillations determines the emittance of the stored beam with the result:
The emittance is determined by the behaviour of the dispersion - and the horizontal betatron function within the bending magnets. The emittance is given by the lattice of the machine.
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Q(d) Q(d)
s
Q(f) B Q(f) B Q(f)
Beta(x,s)
Disp(s)
s
32 .154
1.
1..
xqx J
C
Minimum emittance of Chasman-Green lattice
58
3min magLLs
8
3*
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Q(d) Q(d)
s
Q(f) B Q(f)
Beta(x,s)
Disp(s)
s
Theoretical Minimum Emittance lattice
32
154
1
3
11 x
qx JC
152min
L
0
2
min 24 L
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
3rd Generation Synchrotron Radiation Sources
SOURCE COUNTRY ENERGY (GeV) Emittance nm rads
SUPER-ACO France 0.8 37
ALS USA 1.8 4.9
ESRF France 6.0 4.5
APS USA 7.0 8.0
SPRING-8 Japan 8.0 7.0
Dedicated, high brightness, designed to includeInsertion Device Sources (1985 – 2005?)
Some examples:-
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
APS at Argonne National Laboratory
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Source Energy( GeV ) Emittance (nm rad) Circumference(m)
MAX II 1.5 9 90
ALS 1.9 5.6 196.8
BESSY II 1.9 6.4 240
ELETTRA 2 7 258
Swiss LS 2.4 5 288
NSLS 2.5 50 170
SESAME 2.5 24.4 124.8
SE-ALS 2.5 4.7 191
SOLEIL 2.75 3.72 354
Canadian LS 2.9 18.2 170.4
Australian LS 3 6.88 216
DIAMOND 3 2.74 561.6
ESRF 6 4 844
APS 7 8.2 1104
Spring-8 8 6 1436
Trends in 3rd Generation Light Source Performance
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
0.000
5.000
10.000
15.000
20.000
25.000
0.000 2.000 4.000 6.000 8.000 10.000 12.000 14.000
Beta H
Beta V
10x Dispersion
DOUBLE BEND LATTICE FUNCTIONS
Length (m)
Proposed South East Advanced Light Source (1)
Energy 2.5 GeV
Circumference 170 m
Emittance 7.9 nm rads
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
TRIPLE BEND LATTICE FUNCTIONS
0.000
5.000
10.000
15.000
20.000
25.000
0.000 2.000 4.000 6.000 8.000 10.000 12.000 14.000 16.000 18.000
Length(m)
Be
ta H
, Be
ta V
, 10
xD
isp
Proposed South East Advanced Light Source (2)
Energy 2.5 GeV
Circumference 190 m
Emittance 4.7 nm rads
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Wiggler or Wavelength Shifter
•Placed in a straight section
•Net deflection zero
•High magnetic field 5-10T
•Large horizontal fan ~200 mr
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
CAMD Wiggler
•Central pole 7 Tesla
•End poles 1.5 Tesla
•Made by Budker Institute
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
SRS Daresbury 6 Tesla Wiggler
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Multi Pole Wiggler
•Multiple alternating poles
•High magnetic field 2-5T
•Small horizontal fan ~20 mr
•Superposition of source points
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
SRS Daresbury 2.4 Tesla Permanent Magnet MPW
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Undulator
•Multiple alternating poles
•Period u = 10s of mm
•Beam deflection < 1/
•Interference makes line spectrum
•Very high brightness
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
electronc
Undulatormagnetic field
u
Undulator approximate theory
In the laboratory frame the electron travels towards the undulator magnetic field at relativistic velocity.
stationary electron
Undulatorelectromagnetic wave
u
c
In the electron frame the undulator appears as an EM-wave relativistically contracted to u.
There is then a relativistic Doppler shift back to the laboratory frame.
Thus the undulator produces monochromatic radiation of
2u
rad 2
2u
rad 2
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Undulator correct theory
It is essential to account for the transverse motion of the electron in the undulator.
41
*2
41
*2
2
k
2
2
2u
rad 1
222
22
2u
2u
rad
1
*
1-k
1-k
Introduce the deflection parameter k
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Undulator constructive interference
photon
electronA B
As an electron moves from A to B the photon moves ahead.A photon emitted at point A will constructively interfere with one emitted at point B if it gains by a whole number of wavelengths:-
uu
rad
41
2
n
2
k
2n
2
2u
rad 1
n = 1,3,5,…
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Undulator Spectrum (calculated)
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
ESRF Undulator
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
SRC
In vacuum Undulators – for small gap / period
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
SRC Wisconsin 6 EM Undulator
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Elettra – SLS Helical Wiggler/Undulator
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Undulator Brightness Output
1.00E+16
1.00E+17
1.00E+18
1.00E+19
1.00E+20
0.0 1000.0 2000.0 3000.0 4000.0 5000.0 6000.0 7000.0
Photon Energy (eV)
Bri
gh
tnes
s (p
ho
ton
s/s/
mm
^2/
mra
d^
2/0.
1%)
1st Harmonic
3rd Harmonic
5th Harmonic
SE-ALS Undulator 50 mm
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
4th Generation Synchrotron Radiation Sources
What could be their characteristics?
•Extremely high brightness
•Ultra short electron bunches
•Coherent radiation
Conclusion:- It must be based on a Free Electron Laser
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Oscillator type Free Electron Laser
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
SASE type Free Electron Laser•SASE = Self Amplification of Spontaneous Emission
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Free Electron Laser- present limitations
•Wavelength limited by mirrors- use SASE
•Low rep rate hence low average brightness- use Energy Recovery Linac
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Energy Recovery Linac
High brightness cw e-gunSuperconducting RF
SASE Free Electron Laser
Low energy beam dump
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
ERLs Past and Future
TJNAL (USA) 160 MeVBINP (Rus) 100 MeV4GLS (UK) 600 MeVKEK ERL (J) 2.5GeVPERL NSLS (USA) 2.7 GeVLUX LBL (USA) 3 GeVERLSYN (D) 3.5 GeVCornell-TJNAL (USA) 5 GeVMARS BINP (Rus) 6GeV
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
Conclusion for Synchrotron Radiation
The Future is EVEN BRIGHTER than this!
Thank You!
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
The brightness of an undulator is calculated slightly differently.
The flux in the central cone of an undulator Fn at a specified wavelength is averaged over the emission angle of that cone to give the Average On-axis Brightness.
Because of the usually very small source size and divergence in an undulator diffraction effects must be taken into account.
Average On-axis Brightness = //436.2 zzxx
nF
zz are the photon source sizes in both planes and z/z
/ are the photon source divergence in both planes, taking into account diffraction effects.
BRIGHTNESS of Undulators
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Synchrotron Radiation Storage RingsVic Suller: CAMD Louisiana & SRS Daresbury
22,, zxzx Ln
4
1
2/2/,
/, zxzx
Ln
/
L = undulator length
u = undulator period
Radiation in the nth harmonic in an undulator
deflection parameter k = 93.4 u(m)Bo(Tesla)
21
2
2
2
k
nu
n
flux in the central cone Fn=1.43 1014 I0 Qn(k) photons/sec/0.1% bandwidth
n
fkkQ n
n
21)(
2
fn is a numerical factor, related to k.