(r12) FJPPLprojectsAccelerateurRD < FJPPL

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<center>A_RD_1 : *Development of an optical cavity system for advanced photon sources* </center>

_Summary_ :<br>
A high intensity photon beam has various applications in advanced accelerators. Optical cavity is an unique system to realize such high intensity photon beam at a high repetition rate. Especially the laser-Compton scheme, which uses the high intensity photon produced in the optical cavity as a target of a high-energy electron beam to produce energetic photon, is a promising technique. At the ILC, it can be used for a polarized positron source, a photon collider system, beam size and polarization diagnostics. It also is the heart of the system in compact Compton light sources recently proposed in LAL and KEK.
The goal of this project is to further push the technical limits in the existing optical cavity system.

_French members_ :<br>
*N. Delerue*,
K. Cassou,
R. Chiche,
D. Jehanno,
V. Soskov,
A. Variola,
F. Zomer

_Japanese members_ : <br>
*Y. Honda*,
S. Araki,
M. Kuriki,
T. Omori,
T. Takahasi,
N. Terunuma,
J. Urakawa

_References_ :<br>
[1] J Bonis et al 2012 JINST 7 P01017, http://dx.doi.org/10.1088/1748-0221/7/01/P01017 <br>
[2] T Akagi et al 2012 JINST 7 P01021, http://dx.doi.org/10.1088/1748-0221/7/01/P01021<br>
[3] !ThomX Technical Design Report, http://hal.in2p3.fr/in2p3-00971281

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<center>A_RD_6 : *`Study and optimization of the power deposition density in new positron targets* </center>

_Summary_:<br>
We will test a new granular converter consisting of small tungsten spheres in a hybrid positron source configuration. The beam test is scheduled for the summer of 2014 or later at the KEK injector linac. We have already built the granular converters with four different thicknesses at LAL-Orsay for this experiment. The impinging electron with beam energy of 7-8 !GeV and bunched charge of 1 nC is foreseen. In these beam tests, the observations of the temperature rise will be done, putting high-precision thermocouples on the exit face of the converter. Additional observations through infrared cameras are considered.
The goal of this project is to evaluate the feasibility of this new granular converter toward the high intensity positron sources.

_French members_ :<br>
*D. Dauvergne*,
X. Artru,
R. Chehab,
M. Chevallier,
A. Variola

_Japanese members_ : <br>
*M. Satoh*,
K. Furukawa,
T. Kamitani,
F. Miyahara,
T. Suwada,
K. Umemori

_References_:<br>
[1] Y. Uesugi et al., Nuclear Instrum. Methods B 319 (2014) 17-23.<br>
[2] P. Sievers et al., "Granular Converter Test at KEK"; Presented at the 8-th POSIPOL Workshop (POSIPOL2013), Argonne National Lab., Argonne, IL, U.S.A., Sep. 4-6, 2013.

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<center>A_RD_7 : *Study of the effects of the external magnetic field on Superconducting RF cavity performance* </center>

_Summary_ : <br>
Magnetic shielding is a key technology for super-conducting RF cavities.It is necessary to optimize the shielding method, including the choice of materials and the shape of the magnetic shield, and to establish a method for quality control suitable for large-scale production.We plan to continue to evaluate the permeability of various shielding materials, and also investigate possible causes for the performance degradation of the shielding material at cryogenic temperature. We would also like to study the dependence of cavity performance on the permeability

_French members_ :<br>
*J. Plouin*,
A. Daël,
O. Napoly

_Japanese members_  :<br>
*M. Masuzawa*,
K. Tsuchiya,
K. Umemori

_References_ :<br>
[1] Mika Masuzawa, et al. “Study of Magnetic Shielding Materials and Fabrication of Magnetic Shield for Superconducting Cavities” IEEE Transactions on Applied Superconductivity, 2014. Volume: 24, Issue: 3<br>
[2] Mika Masuzawa, Juliette Plouin, et al. “MAGNETIC SHIELDING: OUR EXPERIENCE WITH VARIOUS SHIELDING MATERIALS”, Proc. For SRF2013, Paris, 2013.<br>
[3] Juliette Plouin, “Magnetic Shielding Activities for IFMIF/CEA and Study on the Magnetic Shielding in the FJPPL Collaboration”, presented at “MSU FRIB Workshop on Magnetic Shielding for Cryomodules” Feb.4-6, 2013.<br>
[4] Mika Masuzawa, et al. “Magnetic Properties of Shielding Materials for Superconducting Cavities” IEEE Transactions on Applied Superconductivity, 2012. Volume: 22, Issue: 3 

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<center>A_RD_8 : *Collaboration on fast luminosity measurements and MDI questions for !SuperB meson factories* </center>

_Summary_

_French members_ :<br>
*P. Bambade*,
C. Rimbault,
D. Jehanno,
V. Kubytskyi,
D. El Khechen (!PhD student)

_Japanese members_ : <br>
*S. Uehara*,
Y. Funakoshi,
M. Iwasaki

_References_

_website_

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<center>A_RD_9 : *Efforts towards improving large scale production of SC Cavities* </center>

_Summary_

_French members_ :<br>
*F. Eozénou*,
C. Antoine,
S. Berry,
C. Madec,
C. Servoin,
B. Visentin

_Japanese members_  :<br>
*T. Saeki*,
H. Hayano,
S. Kato,
H. Monjushiro,
M. Sawabe,
M. Yamanaka

_References_

_website_

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<center>A_RD_10 : *Nanometer stabilization studies at ATF2* </center>

_Summary_ :<br>
As a demonstrator for Future Linear Colliders (LC) with nanometer (nm) size e+-e- beams, ATF2 (Accelerator Test Facility) has achieved 44nm vertical beam size, very near to its 37nm goal. It is realized under low intensity beam and the studies on beam intensity dependence will continue. Next major step for our French and Japanese Teams is maintaining the beam position stability of 2nm at IP. To achieve this, Beam Position Monitors, used with an efficient upstream feedback, will be installed and calibrated in a vacuum chamber with internal moving mechanisms.  Ground Motion (GM) sensors will be tested for the development of a new GM feedforward acting on the beam stability. Additional Beam Instrumentation like an in-vacuum diamond sensor for beam halo and linear Compton scattering measurements will be developed.  This project is an ideal precision study for the training of students. 

_French members_ :<br>
*A. Jeremie*,
P. Bambade,
F. Bogard,
P. Cornebise,
N. Geffroy,
S. Wallon,
V. Kubytskyi,
S. Liu (!PhD student),
O. Blanco (!PhD student)

_Japanese members_ : <br>
*N. Terunuma*,
S. Araki,
K. Kubo,
S. Kuroda,
T. Okugi,
T. Tauchi,
J. Urakawa,
H. Yamaoka

_References_ :<br>
[[1] ATF2 PROPOSAL. VOL. 2. B.I. Grishanov et al., DESY-06-001, CERN-AB-2006-004, ILC-ASIA-2005-26, JAI-2006-001, KEK-REPORT-2005-9, SLAC-R-796, UT-ICEPP-05-04.
[2] Bambade P. et al, Present status and first results of the final focus beam line at the KEK Accelerator Test Facility, Phys. Rev. ST Accel. Beams 13, (2010) 042801.
[3] G.White et al, Experimental Validation of a Novel Compact Focusing Scheme for Future Energy-Frontier Linear Lepton Colliders, Phys. Rev. Lett. 112 (2014) 034802.

_website_ : http://lcdev.kek.jp/ATF2/

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<center>A_RD_11 : *Development and Validation of Input Power Couplers for Superconducting LInacs* </center>

_Summary_

_French members_ :<br>
*H. Jenhani*,
G. Devanz,
W. Kaabi

_Japanese members_  :<br>
*E. Kako*,
T. Shishido,
S. Yamaguchi

_References_

_website_

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<center>A_RD_12 : *Development of Frequency Tuners optimized for 1,3 GHz SRF Cavities* </center>

_Summary_

_French members_ :<br>
*O. Napoly*,
F. Ardellier-Desages,
G. Devanz

_Japanese members_  :<br>
*A. Yamamoto*,
H. Hayano,
M. Yamanaka

_References_

_website_

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Topic revision: r12 - 2014-09-04 - 09:25:03 - GenevieveGilbert
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