dressed spin studies with polarized 3 he
DESCRIPTION
Dressed Spin Studies with Polarized 3 He. Andrea Esler & Jen-Chieh Peng (UIUC). Steve Lamoreaux & Chen-Yu Liu (LANL). Dressed Spin. Strong RF fields change the effective magnetic moments of neutrons and 3He First 3He spin dressing measurements performed in April 2005 - PowerPoint PPT PresentationTRANSCRIPT
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Dressed Spin Studies with Polarized 3He
Andrea Esler & Jen-Chieh Peng (UIUC)
Steve Lamoreaux & Chen-Yu Liu (LANL)
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Dressed Spin
Strong RF fields change the effective magnetic moments of neutrons and 3He
• First 3He spin dressing measurements performed in April 2005
• Change of 3He Larmor frequency with a dressing field has been observed.
In the B0<<B1 limit, the g factor modification has a simple formula
0 1/ ( / )dressed freeg g J B
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Dressed Neutron Spin already observed
Effective g factor vs. RF field strength:
Numerical simulations reproduced these
results
Muskat, PRL 58(20), 1987
Fits the J0(B1/) prediction
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Critical dressing equalizes precession rates
Crossing points equalize neutron and 3He g
factors:
Heneutron 3
3 1n 1n 0 3 0
0 0
BBJ J
J x J x
1.1127
3Heneutron
n 1 /x B
Effective dressed g factors:
• Reduce the effect of B0 [instability] on the two species
• A check of n=3: scintillation no longer modulated
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4 m
1 K cold headInjection nozzle
Quadrupoleseparator
Spin flip region
Quadrupoleanalyzer
3Hedetector
Solenoid field 8 Gauss
B1 rf
Spin polarizer Spin analyzer
3He detector
RGA
90 cm
Experiment
Polarized 3He Source
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Ramsey experiment technique (SOF)
When the RF pulses are applied on resonance (at the Larmor frequency) the 3He spin direction is completely reversed (minimal transmission)
Incoming 3He
/2 pulse
Free precessio
n
Second /2
pulseZ component
of nuclear spin
Images courtesy Sussex Neutron
EDM group
Analyzer & Counter-1
+1
accepts P=+1 state
Adding an RF dressing field slows down spin precession between the flip coils (or speeds it up…) & changes the minimum transmission frequency
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3He experiment setup
source
to analyzer and RGA detector
solenoid
polarizer
Ramsey coils and dressing coils are
inside the solenoid
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Spin-flip magnetic field B1 x distance
RG
A p
ressu
re r
ead
ing Full beam
transmission
Unpolarized
transmission
” pulse” field
setting
(5.9 4.0)2 95%
(4.0 0.01)P
Dec. 2004: P=99.6% was measured with better
shielding
3He beam polarization: P > 95%
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vL
dBNP
eff /
)cos()( 1
• Polarization (as fn. of B1) averages over 3He velocities
• P(B1) measures Fourier cosine transform of velocity spectrum
• Invert the FT to measure N(v):
Img. courtesy S. Lamoreaux
1 K “Maxwell” dist.
Accepted velocities
From Dec. 2004 meeting:
Velocity spectrum
deduced from April
measurements needs to be
calibrated, but we expect agreement
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open and closed shutter
the same, log scale
6 nTorr
0.01 nTorr
3He beam background pressure
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Mapping the dressing field
Dressing magnet coil
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Dressing coil field map
Average field: 1.6 Gauss / Ampere
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3He dressed spin results I
Minimal transmission rate observed at the 3He Larmor precession frequency
Incr
easi
ng
dre
ssin
g
field
Dressing field frequency 43.5 kHz
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3He Larmor Freq. Dressed at 43.5 kHz
Max B field
5.8 G
04.1%f
f
Inconsistent with simple formula; B0~B1
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43.5 kHz data vs. simulation
3He Larmor frequency vs. dressing field
26.2
26.4
26.6
26.8
27
27.2
27.4
27.6
0.0 1.0 2.0 3.0 4.0 5.0 6.0
Dressing field magnitude [G]
Lar
mo
r fr
equ
ency
[kH
z]
LANL data
Simulation
Rough agreement with Bloch-equation simulations – I am working to refine the code
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3He dressed spin results IIIn
creasi
ng
dre
ssin
g
field
Dressing field frequency 8.1 kHz
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3He Larmor Freq. Dressed at 8.1 kHz
Max B field
1.6 G
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Outlook
• Continue analysis– Understand observed Larmor freq. behavior
• Upcoming measurements (this week) will emulate EDM experimental conditions– More intense dressing fields over smaller
volume (new coils already built)– Smaller B0 (limited by earth’s field ~5 G)– Larger dressing field frequency ~50-100 kHz