Difference between revisions of "Resonant Polarimeter"

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Resonant polarimeter, first proposed by Derbenev in 1993, measures the spin-dependent energy deposited by a beam in cavity via the Stern-Gerlach interaction. This technique of fast non-destructive measurement of beam polarization has been never demonstrated experimentally. We are planning a proof-of-principle test using polarized electrons and a room temperature copper cavity.
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Resonant polarimetry, first proposed by Derbenev in 1993, measures the spin-dependent energy deposited by a beam in cavity via the Stern-Gerlach interaction. This technique of fast non-destructive measurement of beam polarization has been never demonstrated experimentally. We are planning a proof-of-principle test using polarized electrons and a room temperature copper cavity.
  
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  Phone number: 1-888-240-2560
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  Meeting ID: 149332993#
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  Meeting URL: http://bluejeans.com/149332993
  
 
= Meetings and Discussion =
 
= Meetings and Discussion =
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=== 2018 ===
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* Richard's PSTP-2017 Paper submission (February 8, 2018): [[media:Talman-PSTP-2017-m.pdf]]
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* Brock's note on magnet drop (January 10, 2018): [[media:01-10-18_Polarimetery_BR.pdf]]
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* Ahmed's report on PIC spin polarization model (January 10, 2018): [[media:01-10-18_SpinPolarizationReport.docx]]
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* Richard's lecture slides at EDM Task Force at Juelich Germany (January 10, 2018): [[media:01-10-18_TalmanLecture.pdf]]
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=== 2017 ===
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* Brock's progress on a receiver for the tiny TE011 cavites that operate at 15,219 MHz (October 25, 2017): [[media:10-25-17_polarimetery_progress_report.pdf]] [[media:10-25-17_polarimetery_progress_report.docx]]
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* Brock's progress report (September 20, 2017): [[media:9-20-17_polarimetery_progress_report.pdf]] [[media:9-20-17_polarimetery_progress_report.docx]]
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* Brock's progress report (August 23, 2017): [[media:8-23-17_polarimetery_progress_report.pdf]] [[media:8-23-17_polarimetery_progress_report.docx]]
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* Richard Talman's write-up detailing a possible Stern-Gerlach (transverse) polarimeter test at CEBAF (August 23, 2017): [[media:Talman_CEBAF-SG-line_23August2017.pdf]]
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* Brock's documents describing the receiver for resonant polarimeter, and the test description:  [[media:Brock IQ demodulator.pdf]], [[media:preamp.pdf]], [[media:experiment description.pdf]]
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* Alicia: General Particle Tracer (GPT) Simplified Simulations: Counter-wound Solenoids (July 12, 2017): [[media:Alicia_GPTSimpleSimulationsCWsol_2017_07_12.pptx]]
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* Richard Talman's report: ''Split Cylinder Resonant Electron Polarimeter'' (July 12, 2017): [[media:Talman_SplitCylinderBrRob_July2017.pdf]]
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* Brock's progress report (June 14, 2017): [[media:6-14-17_polarimetery_progress_report.pdf]] [[media:6-14-17_polarimetery_progress_report.docx]]
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* Richard Talman's report: ''Split Cylinder Resonant Electron Polarimeter'' (June 14, 2017): [[media:Talman_SplitCylinderBrRob_June2017.pdf]]
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* Alicia's summary of the solenoid simulations with a line beam (May 24, 2017): [[media:GPTSimpleSimulations_2017_05_24.pptx]]
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* Richard Talman's report: ''Split Cylinder Resonant Electron Polarimeter'' (May 24, 2017): [[media:Talman_SplitCylinderBrRob_May2017.pdf]]
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* Brock's Phase I Progress Report (May 3, 2017): [[media:Brock_5-3-17_phase_I_progress.docx]]
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* General Particle Tracer (GPT) Simulations of Proposed Stern-Gerlach Experiment Layout (March 29, 2017) [[media:170329_Hofler.pdf]]
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* Look at 130keV/approx. 500keV in spectrometer beam line (March 29, 2017): [[media:130329_SG_Grames.pdf]]
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* Brock's progress on the deflectometer (March 29, 2017): [[media:Progress_on_bunch_deflectometer_3-29-17.docx]]
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* Brock's transverse deflection detection cavity description [[Brock_transverse_deflection]] (January 3, 2017)
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=== 2016 ===
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* Richard Talman's revised Stern-Gerlach beamline design (December 12, 2016): [[media:Talman_IR-SG-Line.pdf]]
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* Richard Talman's discussion of beamline design for detecting Stern-Gerlach deflection of 500 KeV electrons in CEBAF 1D Spectrometer line: [[media:Talman_CEBAF-SG-line_30Nov2016.pdf]]
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* Sateesh Mane, "Relativistic Stern-Gerlach Deflection: Hamiltonian Formulation", '''arXiv:1611.07326v1 [Accelerator Physics]''' (November 22, 2016): [https://arxiv.org/abs/1611.07326] [[media:1611.07326v1.pdf]]
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* Richard Talman's final Spin 2016 paper (November 16, 2016):
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:: [[media:Talman_Spin2016-paper_final_16Nov2016.pdf]]
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:: A theoretical paper, '''arXiv:1611.03810v1 [Accelerator Physics] ''': [https://arxiv.org/abs/1611.03810v1] [[media:RelativisticStern-Gerlach_16Nov2016.pdf]]
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* Reza Kazimi's BPM antenna (November 2, 2016): [[media:750_MHz_BPM_Test_Plan_Results.pdf]] [[media:750_MHz_BPM_Test_Plan_Results.pptx]]
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* Sateesh Mane's comments (October 19, 2016): [[media:Talman_SPIN2016_19Oct2016_appendix_comments1.pdf]]
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* Sateesh Mane's comments (October 17, 2016): [[media:Talman_SPIN2016_07Oct2016_comments.pdf]]
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* Richard Talman's updated Spin 2016 paper (October 07, 2016): [[media:Talman_Spin2016-paper_07Oct2016.pdf]]
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* Sateesh Mane comments: [[media:Talman_SPIN2016_Sateesh_comments.pdf]]
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* Wolfgang Hillert's talk at SPIN 2016: [[media:Hillert SPIN 2016 talk on resonant polarimetry.pdf]] and here's the indico link: [https://indico.cern.ch/event/570680/contributions/2310170/attachments/1341809/2025997/Hillert_Respol-SPIN.pdf]
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* Richard Talman's talk at SPIN 2016: [https://indico.cern.ch/event/570680/contributions/2310168/attachments/1341808/2026008/Talman_Spin2016-talk.pdf]
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* Richard Talman, ''The CEBAF Injection Line as Stern-Gerlach Polarimeter'', Spin 2016 Conference (September 22, 2016):
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:: Abstract: [[media:Talman_SG_Polarimeter_Spin2016_abstract.txt]]
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:: Paper: [[media:Talman_SG_Polarimeter_Spin2016.pdf]]
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:: Beam Position Monitors (Peter Forck, Piotr Kowina, Dmitry Liakin - GSI, Darmstadt, Germany): [[media:Cas_bpm_main.pdf]]
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* Richard Talman, ''The CEBAF Injection Line as One Big Stern-Gerlach Polarimeter'' (September 6, 2016): [[media:InjLine-SG-polarimeter_06Sept2016.pdf]]
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* Brock's report on I/Q Demodulator Performance (September 6, 2016): [[media:IQ_demodulator_performance_06Sept2016.docx]]
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* CEBAF Injector Beamline: [[media:injector_quick_reference.pdf]]
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* Richard Talman's update (August 17, 2016): [[media:Talman_p63-65_17August2016.pdf]]
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* Richard Talman's Stern-Gerlach report (August 3, 2016): [[media:ResPolTest_Talman_03August2016.pdf]] – Updated the signal power estimate [[media:Revised-p14.pdf]]
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* Brock's progress on the 2.495 MHz I/Q receiver (August 3, 2016): [[media:Brock_Receiver_03August2016.JPG]]
  
 
* Richard Talman's SLAC seminar (July 21, 2016): [[media:Talman_seminar_SLAC-July2016.pdf]]
 
* Richard Talman's SLAC seminar (July 21, 2016): [[media:Talman_seminar_SLAC-July2016.pdf]]
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* Richard Talman's thoughts on resonant polarimetry (June 1, 2016): [[media:Talman_Stern_Gerlach_Resonance_Polarimeter.pdf]]
 
* Richard Talman's thoughts on resonant polarimetry (June 1, 2016): [[media:Talman_Stern_Gerlach_Resonance_Polarimeter.pdf]]
  
* Brock's prototype (June 9, 2016): [[media:Brock_resonant_cavity_prototype.jpg]]
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* Brock's prototype (June 9, 2016): [[media:Brock_resonant_cavity_prototype.jpg]] [[media:Brock_resonant_cavity_prototype2.jpg]] [[media:Brock_resonant_cavity_prototype3.jpg]] [[media:Brock_resonant_cavity_prototype4.jpg]] [[media:Brock_resonant_cavity_prototype5.jpg]] [[media:Brock_resonant_cavity_prototype6.jpg]]
  
 
* Brock's idea (April 27, 2016): [[media:Brock's_schematic.docx]]
 
* Brock's idea (April 27, 2016): [[media:Brock's_schematic.docx]]
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* Summary of some discussions post-meeting with Juelich and Bonn, a long string of emails: [[media:email discussion following the meeting.docx]], [[media:running log of discussions.docx]]
  
 
* Local meeting with Juelich, Bonn and Cornell visitors to discuss resonant polarimeter (February 3-5, 2016): https://www.jlab.org/indico/event/142/
 
* Local meeting with Juelich, Bonn and Cornell visitors to discuss resonant polarimeter (February 3-5, 2016): https://www.jlab.org/indico/event/142/
  
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= References =
  
= References and Documents=
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* ''RF resonant beam polarimetry: Analysis using quantized operators''
 +
S. R. Mane and W. W. MacKay, Nucl. Inst. Meth. A '''875''', 165 (2017): [[media:NuclInstMethA.875.165.pdf]] [https://doi.org/10.1016/j.nima.2017.09.030]
  
* ''Measuring the intensity and position of a pA electron beam with resonant cavities''
+
* ''A critical analysis of the technique of spin tune mapping in storage rings''
Thorsten R. Pusch, F. Frommberger, W. C. A. Hillert, and B. Neff, Phys. Rev. ST Accel. Beams '''15''', 112801 (2012): [http://dx.doi.org/10.1103/PhysRevSTAB.15.112801] [[media:PhysRevSTAB.15.112801.pdf]]
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S. R. Mane, Nucl. Inst. Meth. A '''875''', 141 (2017): [[media:NuclInstMethA.875.141.pdf]] [https://doi.org/10.1016/j.nima.2017.09.026]
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* ''On Stern-Gerlach forces allowed by special relativity and the special case of the classical spinning particle of Derbenev-Kondratenko''
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K. Heinemann, '''arXiv:9611001v1 [physics]''' (July 22, 2013): [https://arxiv.org/abs/physics/9611001v1] [[media:9611001.pdf]]
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* ''Stern-Gerlach Forces and Spin Splitters''
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D. P. Barber, AIP Conf. Proc. '''1008''', 56 (2008) (29–31 August 2007): [http://dx.doi.org/10.1063/1.2932267] [[media:Barber_SG_1.2932267.pdf]]
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* ''Polarization kinetics of particles in storage rings ''
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Ya. S. Derbenev, A.M. Kondratenko, Sov. Phys. JETP, 37, p.968 (1973): [http://www.jetp.ac.ru/cgi-bin/dn/e_037_06_0968.pdf] [[media:e_037_06_0968.pdf]]
  
 
* ''The Stern-Gerlach interaction between a traveling particle and a time varying magnetic field''
 
* ''The Stern-Gerlach interaction between a traveling particle and a time varying magnetic field''
M. Conte, M. Ferro, G. Gemme, W.W. MacKay, R. Parodi, M. Pusterla, '''arXiv:physics/0003069v1''' (March 24, 2000): [https://arxiv.org/abs/physics/0003069v1] [[media:arXiv_physics_0003069v1.pdf]]
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M. Conte, M. Ferro, G. Gemme, W.W. MacKay, R. Parodi, M. Pusterla, '''arXiv:0003069v1 [physics]''' (March 24, 2000): [https://arxiv.org/abs/physics/0003069v1] [[media:arXiv_physics_0003069v1.pdf]]
  
 
* ''Relativistic Stern-Gerlach Interaction in an RF Cavity''
 
* ''Relativistic Stern-Gerlach Interaction in an RF Cavity''
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* ''Proposal for a cavity polarimeter at MIT-Bates''
 
* ''Proposal for a cavity polarimeter at MIT-Bates''
P. Cameron et al., Proceedings of the 2001 Particle Accelerator Conference, Chicago: [http://dx.doi.org/10.1109/PAC.2001.987396] [[media:BATES_PAC2001.00987396.pdf]]
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P. Cameron et al., Proceedings of the Particle Accelerator Conference, Chicago (2001): [http://dx.doi.org/10.1109/PAC.2001.987396] [[media:BATES_PAC2001.00987396.pdf]]
 +
 
 +
* ''Measuring the intensity and position of a pA electron beam with resonant cavities''
 +
Thorsten R. Pusch, F. Frommberger, W. C. A. Hillert, and B. Neff, Phys. Rev. ST Accel. Beams '''15''', 112801 (2012): [http://dx.doi.org/10.1103/PhysRevSTAB.15.112801] [[media:PhysRevSTAB.15.112801.pdf]]
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 +
* ''Single-Shot MeV Transmission Electron Microscopy with Picosecond Temporal Resolution''
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R. K. Li and P. Musumeci, Phys. Rev. Applied '''2''', 024003 (2014): [https://doi.org/10.1103/PhysRevApplied.2.024003] [[media:PhysRevApplied.2.024003.pdf]]
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* ''Development of a high-resolution cavity-beam position monitor''
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Y. Inoue et al., Phys. Rev. ST Accel. Beams '''11''', 062801 (2008): [https://doi.org/10.1103/PhysRevSTAB.11.062801] [[media:PhysRevSTAB.11.062801.pdf]]
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* ''Performance of a high resolution cavity beam position monitor system''
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S. Walston, Nucl. Inst. Meth A '''578''', 1 (2008): [http://dx.doi.org/10.1016/j.nima.2007.04.162] [[media:NuclInstMethA.578.1.pdf]]
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 +
* ''Development of a cavity-type beam position monitor with high resolution for ATF2''
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S. Jang et al., Proceedings of IPAC2013, Shanghai, China, 2013: [[media:mopme058.pdf]]
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* ''Multiple harmonic frequencies resonant cavity design and half-scale prototype measurements for a fast kicker''
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Y. Huang et al., Phys. Rev. Accel. Beams '''19''', 122001 (2016): [https://doi.org/10.1103/PhysRevAccelBeams.19.122001] [[media:PhysRevAccelBeams.19.122001.pdf]]
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* ''Cavity Beam Position Monitors''
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Ronald Lorenz, DESY Zeuthen, Platanenallee 6, D-15738 Zeuthen: [[media:lorenz_CBPM.pdf]]
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 +
* ''Measuring the intensity and position of a pA electron beam with resonant cavities''
 +
T. Pusch et al., Phys. Rev. Accel. Beams '''15''', 112801 (2012): [https://doi.org/10.1103/PhysRevSTAB.15.112801] [[media:PhysRevSTAB.15.112801.pdf]]
 +
 
 +
* ''Direct demonstration of the transverse Stern-Gerlach effect''
 +
J. Porter, R. F. Pettifer, and D. R. Leadley, American Journal of Physics '''71''', 1103 (2003): [http://doi.org/10.1119/1.1574321] [[media:AmericanJourPhys.71.1103.pdf]]

Latest revision as of 15:13, 25 September 2018

Resonant polarimetry, first proposed by Derbenev in 1993, measures the spin-dependent energy deposited by a beam in cavity via the Stern-Gerlach interaction. This technique of fast non-destructive measurement of beam polarization has been never demonstrated experimentally. We are planning a proof-of-principle test using polarized electrons and a room temperature copper cavity. 


 Phone number: 1-888-240-2560
 Meeting ID: 149332993#
 Meeting URL: http://bluejeans.com/149332993

Meetings and Discussion

2018



2017

  • General Particle Tracer (GPT) Simulations of Proposed Stern-Gerlach Experiment Layout (March 29, 2017) media:170329_Hofler.pdf



2016

  • Sateesh Mane, "Relativistic Stern-Gerlach Deflection: Hamiltonian Formulation", arXiv:1611.07326v1 [Accelerator Physics] (November 22, 2016): [1] media:1611.07326v1.pdf
  • Richard Talman's final Spin 2016 paper (November 16, 2016):
media:Talman_Spin2016-paper_final_16Nov2016.pdf
A theoretical paper, arXiv:1611.03810v1 [Accelerator Physics] : [2] media:RelativisticStern-Gerlach_16Nov2016.pdf
  • Richard Talman's talk at SPIN 2016: [4]
  • Richard Talman, The CEBAF Injection Line as Stern-Gerlach Polarimeter, Spin 2016 Conference (September 22, 2016):
Abstract: media:Talman_SG_Polarimeter_Spin2016_abstract.txt
Paper: media:Talman_SG_Polarimeter_Spin2016.pdf
Beam Position Monitors (Peter Forck, Piotr Kowina, Dmitry Liakin - GSI, Darmstadt, Germany): media:Cas_bpm_main.pdf

References

  • RF resonant beam polarimetry: Analysis using quantized operators

S. R. Mane and W. W. MacKay, Nucl. Inst. Meth. A 875, 165 (2017): media:NuclInstMethA.875.165.pdf [5]

  • A critical analysis of the technique of spin tune mapping in storage rings

S. R. Mane, Nucl. Inst. Meth. A 875, 141 (2017): media:NuclInstMethA.875.141.pdf [6]

  • On Stern-Gerlach forces allowed by special relativity and the special case of the classical spinning particle of Derbenev-Kondratenko

K. Heinemann, arXiv:9611001v1 [physics] (July 22, 2013): [7] media:9611001.pdf

  • Stern-Gerlach Forces and Spin Splitters

D. P. Barber, AIP Conf. Proc. 1008, 56 (2008) (29–31 August 2007): [8] media:Barber_SG_1.2932267.pdf

  • Polarization kinetics of particles in storage rings

Ya. S. Derbenev, A.M. Kondratenko, Sov. Phys. JETP, 37, p.968 (1973): [9] media:e_037_06_0968.pdf

  • The Stern-Gerlach interaction between a traveling particle and a time varying magnetic field

M. Conte, M. Ferro, G. Gemme, W.W. MacKay, R. Parodi, M. Pusterla, arXiv:0003069v1 [physics] (March 24, 2000): [10] media:arXiv_physics_0003069v1.pdf

  • Relativistic Stern-Gerlach Interaction in an RF Cavity

M. Conte, A. U. Luccio, and M. Pusterla, arXiv:physics/0907.2161v1 (February 22, 2013): [11] media:arXiv_physics_0907.2161v1.pdf

  • RF-resonance beam polarimeter Part I. Fundamental concepts

Ya. S. Derbenev, Nucl. Inst. Meth. A 336, 12 (1993): [12] media:NuclInstMethA.336.12.pdf

  • Lorentz Transform of an Arbitrary Force Field Acting on a Particle in its Rest Frame, using the Hamilton-Lagrangian Formalism

C. Tschalär, BIR#15-01, Bates Lab Report (June 24, 2016): media:Tschaller_Tech_Note_B-IR.pdf

  • Proposal for a cavity polarimeter at MIT-Bates

P. Cameron et al., Proceedings of the Particle Accelerator Conference, Chicago (2001): [13] media:BATES_PAC2001.00987396.pdf

  • Measuring the intensity and position of a pA electron beam with resonant cavities

Thorsten R. Pusch, F. Frommberger, W. C. A. Hillert, and B. Neff, Phys. Rev. ST Accel. Beams 15, 112801 (2012): [14] media:PhysRevSTAB.15.112801.pdf

  • Single-Shot MeV Transmission Electron Microscopy with Picosecond Temporal Resolution

R. K. Li and P. Musumeci, Phys. Rev. Applied 2, 024003 (2014): [15] media:PhysRevApplied.2.024003.pdf

  • Development of a high-resolution cavity-beam position monitor

Y. Inoue et al., Phys. Rev. ST Accel. Beams 11, 062801 (2008): [16] media:PhysRevSTAB.11.062801.pdf

  • Performance of a high resolution cavity beam position monitor system

S. Walston, Nucl. Inst. Meth A 578, 1 (2008): [17] media:NuclInstMethA.578.1.pdf

  • Development of a cavity-type beam position monitor with high resolution for ATF2

S. Jang et al., Proceedings of IPAC2013, Shanghai, China, 2013: media:mopme058.pdf

  • Multiple harmonic frequencies resonant cavity design and half-scale prototype measurements for a fast kicker

Y. Huang et al., Phys. Rev. Accel. Beams 19, 122001 (2016): [18] media:PhysRevAccelBeams.19.122001.pdf

  • Cavity Beam Position Monitors

Ronald Lorenz, DESY Zeuthen, Platanenallee 6, D-15738 Zeuthen: media:lorenz_CBPM.pdf

  • Measuring the intensity and position of a pA electron beam with resonant cavities

T. Pusch et al., Phys. Rev. Accel. Beams 15, 112801 (2012): [19] media:PhysRevSTAB.15.112801.pdf

  • Direct demonstration of the transverse Stern-Gerlach effect

J. Porter, R. F. Pettifer, and D. R. Leadley, American Journal of Physics 71, 1103 (2003): [20] media:AmericanJourPhys.71.1103.pdf

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