Electron Beam Polarimetry: Status and Prospects. DIS 2005, Madison, April 2005 E. Chudakov (JLab)
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1 Electron Beam Polarimetry: Status and Prospects DIS 2005, Madison, April 2005 E. Chudakov (JLab) Motivation: what accuracy is required for various experiments Methods in use: Optical methods Mott scattering Moller scattering Compton scattering Most accurate polarimeters and ways to improve Conclusion DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 1
2 Demand for Electron Beam Polarimetry and Accuracy Required Double Spin Experiments e N e X DIS - PDF, GDH e N e N elastic: formafactors e N e N elastic: formafactors e e + X SM Single Spin Experiments Neutral currents - parity violation (PV) e N e X DIS - SM tests e p e p formfactors, SM e A e A nuclear physics e e + X SM Charged currents e p νx - SM A obs P beam P target A reaction Typically σ(p) P Required: > σ(p) target P beam σ(p) P beam < 2 3% A obs P beam A reaction Required: σ(p) P beam < 1% DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 2
3 Challenges to Polarimetry at JLab Parity violating electron scattering experiments: Progress in reducing the systematic errors Beam polarization: becomes the dominant error! JLab planned experiments, beam current µA: Syst. err Polar. Stat. Energy Comments Experiment without pol error error GeV 208 P b n-skin 0.5% 1.0% 3.0% 0.85 soon ep sin 2 θ W 2.4% <1.4% 2.8% 1.16 soon DIS sin 2 θ W 0.3% <1.0% 0.8% 10.0 after 12 GeV upgrade A 1%, polarimetry accuracy is needed A 0.5% accuracy would be even better... DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 3
4 Important Features of Beam Polarimetry Energy range E beam = GeV, in future ILC E beam > 250 GeV Low energy range E beam = MeV needed to test the injectors Current range E beam = 0.01 µa 2 A, various duty cycles Systematic error Statistical error for a period of a possible polarization change Invasive or not Does polarimetry use the same beam (energy, current, location) as the experiment? DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 4
5 Methods Used for Absolute Electron Polarimetry Spin-dependent processes with a known analyzing power. Atomic Absorption e 50 kev decelerated to 13 ev e (13eV ) + Ar Ar + e, Ar Ar + (hν) σ Atomic levels: (3p 5 4p) 3 D 3 (3p 6 4s) 3 P nm fluorescence Potential σ syst 1%. Under development (Mainz) - only relative so far. Currently - invasive, diff. beam Spin-Orbital Interaction Mott scattering, MeV: e + Z e + Z σ syst 3%, 1% (?) invasive, diff. beam Spin-Spin Interaction Møller scattering: e + e e + e at >0.1 GeV, σ syst 3-4%, 0.5% Mostly invasive, diff. beam Compton scattering: e + (hν) σ e + γ at >0.5 GeV 1-2%, 0.5%. non-invasive, same beam DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 5
6 Mott Polarimetry MeV: e + Au e + Au Analyzing power - Sherman functions 1-3%: Nucleus thickness: phase shifts of scat. amplitudes Spin rotation functions Electron screening, rad. corrections Multiple and plural scattering No energy loss should be allowed Single arm - background Extrapolation to zero target thickness e < 5 µa - extrapolation needed JLab: σ(p)/p = 1%(Sherman) 0.5%(other) (unpublished) σ(extrapol) DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 6
7 Compton Polarimetry e + (hν) σ e + γ QED. Electron Beam Polarimetry: Status and Prospects σ σ σ +σ = A P b P t Møller Polarimetry e + e e + e QED. A(E) = 7 9 σ lab 180 mb ster Rad. corrections to Born < 0.1% Detecting the γ at 0 angle Detecting the e with an energy loss Strong da - good σe dk γ /E γ needed A ke at E < 20 GeV T 1/(σ A 2 ) 1/k 2 1/E 2 P laser 100% Non-invasive measurement Syst. error 3 50 GeV: % Hard at < 1 GeV: (JLab project) 0.8% Rad. corrections to Born < 0.3% Detecting the e at θ CM 90 da dθ CM good systematics Beam energy independent Coincidence - no background Ferromagnetic target P T 8% > 1 µm: invasive measurement Beam I B < 2 4 µa (heating) Levchuk effect Low P T dead time Syst. error σ(p T ) 3% (0.3%) Syst. error 3% typically, (0.5%) DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 7
8 Møller Polarimeter with Saturated Iron foil JLab, Hall C, M. Hauger et al., NIM A 462, 382 (2001) External B Z 4 T Target foils 4-10 µm, perp. to beam P t not measured Important: annealing, etc. Tests for high current Beam σ X 50µm > r = 12µm At 20µA - accidentals/real 0.4 σ stat 1% in 2h 100 Hz to 10 khz Kick (1-2 mm) 20 µs source σ(a)/a optics, geometry 0.20% target 0.28% Levchuk effect 0.30% Current Studies A 1µA thick half-foil Higher duty factor total 0.46% 100 µa? DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 8
9 Møller Polarimeter with Atomic Hydrogen Target Project: E. Chudakov and V. Luppov, IEEE Trans. Nucl. Sci. 51, 1533 (2004). Ultra-cold traps 30K 0.3K H Solenoid 8T beam Storage Cell 4 cm 40 cm Atom H1: µ µe, E = µ B Population exp( E/kT ) At 300 mk Pe Density cm 3 Lifetime > 1 h Stat. 1% in 10 min at 100 µa Contamination and Depolarization at 100µA CEBAF Hydrogen molecules < Upper states c and d < 10 5 Excited states < 10 5 Helium, residual gas <0.1% - beam-measurable Depolarization by beam RF < Ion, electron contamination < 10 5 Ionization heating < Expected depolarization < 10 4 Limitations Problems I 2 b /F continuous beam (MAMI, CEBAF...) Complexity of the target Advantages Expected accuracy < 0.5% Non-invasive, continuous, the same beam DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 9
10 Bhabha/Møller Scattering at Colliders Linear Collider Depolarization in bunch collisions measurement at the collision point! Electron-Ion Collider - JLab Design e e GeV L cm 2 Experiment s, L pb 1 dσ dω CM 0.2 pb/ster Bhabha 10 5 events σ(p)/p 0.7% W - production s-channel vector exchange - Blondel scheme Faster methods are needed (Compton) e e 3 3 GeV GeV a new collision point at the center L cm 2 dσ dω CM 1000 pb/ster Møller Stat. 1% in 5 min A high luminosity collision point - some other interest? DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 10
11 Compton Polarimeters: Best Accuracy at High Energy SLAC SLD Stat: 1% in 3 min σ(p)/p source SLD ILC 1998 Goal Laser polarization 0.10% 0.10% Analyzing power 0.40% 0.20% Linearity 0.20% 0.10% Electronic noise 0.20% 0.05% total 0.50% 0.25% Beam: 45.6 GeV Beam: e 120 Hz 0.7 µa Laser: 532 nm, 50 mj at 7 ns 17 Hz Crossing angle 10 mrad e GeV detector - gas Cherenkov γ detector - calorimeter M.Woods, JLab Polarimetry workshop, 2003 DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 11
12 Compton Polarimeters: CW Low Energy Beam - Cavity λ P=1kW =1064 nm, k=1.65 ev Electron Beam Electrons detector Photons detector Magnetic Chicane k E E JLab Hall A Compton Beam: GeV Beam: µa at 500 MHz Laser: 1064 nm, 0.24 W Fabry-Pérot cavity kw Crossing angle 23 mrad e detector - Silicon µ-strip γ detector - calorimeter Stat: 1.0% in 30 min at 4.5 GeV, 40 µa Syst: 1.2% at 4.5 GeV source σ(p)/p Laser polarization 0.50% Response function 0.40% Calibration 0.60% Others 0.65% total 1.15% Upgrade Plans - 1% at 0.85 GeV Laser: 532 nm, 0.1 W Cavity kw Detector upgrade DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 12
13 Compton Polarimeters: Storage Rings (DESY) Current 30 GeV e 10 MHz 40 ma Laser: 532 nm, 100 mj at <100 Hz Crossing angle 8.7 mrad γ detector - calorimeter New Polarimeter Cavity 1064 nm (as JLab) Single bunch measurement Expected systematics: 0.1% Stat: 1.0% in 2 min in multi-photon mode Syst: 1.6% DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 13
14 Compton Polarimeters: Storage Rings (DESY) TPOL TPOL vs LPOL Stable for HERA-I Difference <2% Transverse polarization Laser: 532 nm CW Crossing angle 3.1 mrad Single photon mode γ detector - calorimeter Syst: 1.9% DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 14
15 Conclusion Accuracy of 1.0% becomes common for Compton polarimetry Accuracy of 0.5% is still exceptional Compton polarimetry fits very well the high energy storage rings Moller polarimetry can be used at low energy, one may be able to reach <0.5% DIS 2005, Madison, April 29, 2005 E.Chudakov (JLab) 15
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