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An Improved Measurement of the Electron Magnetic · PDF fileAn Improved Measurement of the...
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Cavity Control in aSingle-Electron Quantum Cyclotron
An Improved Measurementof the Electron Magnetic Moment
David Hanneke
Michelson PostdoctoralPrize Lectures
13 May 2010
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Hanneke MPPL 2010 – Colloquium
The Quantum Cyclotron
• Single electron
• Resolve lowest cyclotron and spin states via QND measurement
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Acknowledgements
Graduate Students
Josh Dorr
Shannon Fogwell
David Hanneke (2007)
Brian Odom (2004)
Brian D’Urso (2003)
Steve Peil (1999)
Daphna Enzer (1996)
Ching-hua Tseng (1995)
Joseph Tan (1992)
Principal Investigator
Gerald Gabrielse
Postdocs
Maarten Jansen
Kamal Abdullah
20 years
7 theses
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Magnetic Moments
Orbital angular
momentum
Intrinsic angular momentum (Dirac
point particle)Structure of the vacuum (QED)
Structure of the particle
(proton)
g = 1 2 2.002 319 304 … 5.585 …
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Hanneke MPPL 2010 – Colloquium
�, g, and QED
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Hanneke MPPL 2010 – Colloquium
Exact Values for Ci
1 Feynman diagram
7 diagrams
72 diagrams
J. Schwinger, Phys. Rev. 73, 416 (1948)
C.M. Sommerfield, Phys. Rev. 107, 328 (1957)
S. Laporta and E. Remiddi, Phys. Lett. B 379, 283 (1996)
T. Kinoshita and M. Nio, Phys. Rev. D 73, 013003 (2006)
T. Kinoshita and M. Nio, Phys. Rev. D 73, 053007 (2006)
T. Aoyama et al, Phys. Rev. Lett. 99 110406 (2007)
C8 has 891 diagrams
• Known to 0.2 % numerically• Exact calculation underway
C10 has 12 672 diagrams
• Numeric calculation just beginning
• Largest uncertainty in � !
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Hanneke MPPL 2010 – Colloquium
Measurement Results
g/2 = 1.001 159 652 180 73 (28) [0.28 ppt] � -1 = 137.035 999 084 (51) [0.37 ppb]
B. Odom, D. Hanneke, B. D’Urso, and G. Gabrielse, Phys. Rev. Lett. 97, 030801 (2006)
G. Gabrielse, D. Hanneke, T. Kinoshita, M. Nio, and B. Odom, Phys. Rev. Lett. 97, 030802 (2006). Ibid. 99 039902(E) (2007)
D. Hanneke, S. Fogwell, and G. Gabrielse, Phys. Rev. Lett. 100, 120801 (2008)
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Experimenter’s g
g in free-space (with a magnetic field)
What should we measure? Frequency!
B
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Hanneke MPPL 2010 – Colloquium
Experimenter’s g
• The cyclotron is an anharmonic oscillator.
• No relativistic correction to �a.
Special Relativistic corrections
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Hanneke MPPL 2010 – Colloquium
Experimenter’s g
Penning Trap’s electrostatic quadrupole
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Hanneke MPPL 2010 – Colloquium
Experimenter’s g
A real Penning trap has
• distortions in the electrostatic quadrupole
• misalignment of the quadrupole axis and B
Brown-Gabrielse Invariance Theorem
required hierarchy
L.S. Brown and G. Gabrielse, Rev. Mod. Phys. 58, 233 (1986)
cavity shift
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Hanneke MPPL 2010 – Colloquium
Our Trap Frequencies
motion frequency damping
time
axial 200 MHz 0.2 s
cyclotron 150.0 GHz 5 s
spin 150.2 GHz 2 yr
magnetron 133 kHz 4 Gyr
hierarchy satisfied
� ~ 180 Hz
B ~ 5.36 T
V0 ~ 101.4 V
d ~ 3.5 mm (0.14 in)
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Hanneke MPPL 2010 – Colloquium
Our Trap
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Hanneke MPPL 2010 – Colloquium
The Whole Apparatus
Hannek
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Hanneke MPPL 2010 – Colloquium
A Tabletop Experiment
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Low Temperatures
Cool the blackbody photons (�n� << 1)
Allows quantum jump spectroscopy
S.Peil and G.Gabrielse, Phys. Rev. Lett. 83, 1287 (1999)
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Hanneke MPPL 2010 – Colloquium
Low Temperatures
Exact relativistic shifts
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Hanneke MPPL 2010 – Colloquium
Low Temperatures
Narrow line widths
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Hanneke MPPL 2010 – Colloquium
Cavity Control
• Well understood
• Resonant near �c = 150 GHz (� ~ 2 mm)
• Coupled to the cyclotron motion if the geometry is right
The radiation modes of a cylindrical cavity are
J.D. Jackson, Classical Electrodynamics, 3rd Ed., Sect. 8.7
L.S. Brown et al., Phys. Rev. A 32, 3204 (1985)
TE111 27.4 GHz
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Hanneke MPPL 2010 – Colloquium
Cavity Control
Control the cyclotron damping rate, �c
Free spacedamping rate ~1/(100 ms)
Inhibited spontaneous emission
= (6.70 ± 0.18) s = 73.6 x free space
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Hanneke MPPL 2010 – Colloquium
Cavity Control
Shift the cyclotron frequency
Details later…
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Determining g
• Measure fc, �a, �z
• Calculate �
• Calculate �/�
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Hanneke MPPL 2010 – Colloquium
Axial Detection
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Hanneke MPPL 2010 – Colloquium
Self Excited Oscillator
B. D’Urso, R. Van Handel, B. Odom, D. Hanneke, and G. Gabrielse, Phys. Rev. Lett. 94, 113002 (2005)
• First single-particle SEO
• Enhanced S/N
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Hanneke MPPL 2010 – Colloquium
Cyclotron/Spin Detection
QND measurement:
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Hanneke MPPL 2010 – Colloquium
Quantum Leaps
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Cyclotron Procedure
•With the e- in the |0,�� state, pulse
the cyclotron drive (150 GHz)
•Look for excitations to n = 1
•Make a histogram of excitations versus frequency
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Anomaly Procedure
•With the e- in the |0,�� state, pulse the
anomaly drive (174 MHz) to move the e-
through the gradient
•Look for a decay to |0, � (slow!)
•Make a histogram of spin flips versus
frequency
•Pump the electron back to |0,�� state
before each measurement.
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Two mode-detection
techniques
• A synchronized cloud of electrons
• The single electron itself
Hanneke MPPL 2010 – Colloquium
Determining the Cavity Shifts
Synchronized electron technique:J. Tan and G Gabrielse, Phys. Rev. Lett. 67, 3090 (1991)
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Hanneke MPPL 2010 – Colloquium
Determining the Cavity Shifts
• Determine the locations of the coupled modes
• Calculate the g value shift
• Uncertainty in mode location � uncertainty in
g
L.S. Brown et al., Phys. Rev. A 32, 3204 (1985)
locations of our g-value measurements
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Hanneke MPPL 2010 – Colloquium
Applying the Cavity Shifts
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Uncertainties
�c / GHz = 147.5 149.2 150.3 151.3
Statistics 0.39 0.17 0.17 0.24
Cavity shift 0.13 0.06 0.07 0.28
Uncorrelated lineshape model 0.56 0.00 0.15 0.30
Correlated lineshape model 0.24 0.24 0.24 0.24
Total 0.73 0.30 0.34 0.53
Uncertainties forg in parts-per-trillion.
g/2 = 1.001 159 652 180 73 (28) [0.28 ppt]
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Hanneke MPPL 2010 – Colloquium
Lineshape Model Uncertainty
• Concern about magnetic field noise
• Get fc, �a with a weighted-mean method
• Check with fits
• How well do they agree? L.S. Brown, Ann. Phys. (N.Y.) 159, 62 (1985)
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Hanneke MPPL 2010 – Colloquium
Lineshape Model Uncertainty
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Magnetic Field Stability
•External fluctuations
•Magnet settling
G. Gabrielse and J. Tan, J. Appl. Phys. 63, 5143 (1988)
Self-shielding solenoid reduces
fluctuations by > 150.
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Hanneke MPPL 2010 – Colloquium
Magnetic Field Stability
•Electrode motion in an inhomogeneous field
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Hanneke MPPL 2010 – Colloquium
Temperature Regulation
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Hanneke MPPL 2010 – Colloquium
Construction
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Hanneke MPPL 2010 – Colloquium
Outline
I. Introduction
II. Measurement overview
III. Novel techniques
IV. Measurement details
V. Uncertainties
VI. Experimental challenges
VII.What’s next
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Hanneke MPPL 2010 – Colloquium
Short Term Outlook
New high-stability apparatus
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Medium Term Outlook
� e+ g-value / CPT test
• Cavity-assisted axial-cyclotron sideband cooling and other line-narrowing techniques
• Speed up the measurement cycle (�-pulses and
adiabatic fast passage)
� μp, μp (first single-proton spin flip, improve the
antiproton measurement by 106)
Nick Guise Shannon FogwellJosh Dorr
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Hanneke MPPL 2010 – Colloquium
Long Term Outlook
• mp / me
• Planar electrode geometries
• Electron as qubit
Josh Goldman Jack DiSciacca
S. Stahl, et al, Eur. Phys. J. D 32, 139 (2007)
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Hanneke MPPL 2010 – Colloquium
Summary
g/2 = 1.001 159 652 180 73 (28) [0.28 ppt] � -1 = 137.035 999 084 (51) [0.37 ppb]
D. Hanneke, S. Fogwell, and G. Gabrielse, Phys. Rev. Lett. 100, 120801 (2008)B. Odom, D. Hanneke, B. D’Urso, and G. Gabrielse, Phys. Rev. Lett. 97, 030801 (2006)
G. Gabrielse, D. Hanneke, T. Kinoshita, M. Nio, and B. Odom, Phys. Rev. Lett. 97, 030802 (2006). Ibid. 99 039902(E) (2007)
• First improvements in g in 20 years (factor of 15 total)
• Cavity effects no longer dominate the uncertainties
• More to come...
High-Energy Physics with Low-Energy
Symmetry Studies
Friday, May 14, 12:30pm, Miller Room