(1 vs. 26) FJPPLDetectorRD < FJPPL

Revision 262020-09-18 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_16: Development of Advanced Monolithic Pixel Detector

Line: 15 to 15

Japanese members:
Y. Arai, K. Hara, I. Kurachi, A. Ishikawa, T. Miyoshi, T. Tsuboyama, M. Yamada

Deleted:

<
<

References:

Websites:
http://rd.kek.jp/project/soi/index.html

Revision 252020-04-03 - Main.IsabelleRippBaudot

 			 META TOPICPARENT 
			 name="FJPPLprojects"
- META TOPICPARENT
+ name="FJPPLprojects"
-<
<
+D_RD_09: Toward the final design of a TPC for the ILD detector
->
>
+D_RD_16: Development of Advanced Monolithic Pixel Detector 

Summary:

      The next generation of lepton colliders (such as the ILC) requires a vertex detector with utmost precision, calling for tiny pixels located very close to the interaction point. The consecutive hit rate generated by the beam related background imposes the pixel read-out to be fast enough to keep the occupancy at an acceptable level. The consecutive complexity of the read-out circuitry, however, relies on a footprint which tends to conflict with the restricted pixel dimensions and can generate sizeable power consumption. The conflict is enhanced by material budget restrictions, which clearly favour monolithic devices instead of hybrid ones;

    These observations have motivated a long-term development of various pixel technologies, among which several ones exploiting industrial CMOS processes. The latter have shown to be the most promising among all alternatives considered up to now. The most advanced R&D however did not yet fully solve the conflict between precision, read-out speed and power consumption. It is the objective of the present partnership to overcome the remaining obstacles, its ultimate goal being a single bunch crossing tagging capability with pixels providing a precision better than 3 μm.To reach these target values, the strategy will consist in combining the advantages of the CMOS and SOI technologies in a partnership between two teams concentrating the necessary know-how in both technologies.

    The IPHC group has a long history in developing monolithic CMOS Pixel Sensors (CPS). MIMOSA chips are used in a variety of devices, the PXL detector of the STAR experiment (Fig. 1) at BNL acting as a flagship for the benefits of CPS in charmed meson tagging, based on its recently completed 3 years long physics programme.

    The Japanese group has been developing monolithic pixel sensors by using a Silicon-on-Insulator (SOI) technology. The SOI detector has both sensor and (CMOS) circuit layers in a wafer as shown in Fig. 2. The process is very flexible, providing great capabilities of developing new detectors. In addition to charged particle detection, both groups are also working for X-Ray detection.

    Their partnership will reinforce the development of both technologies due to the enhanced chip designing and testing capabilities. Furthermore, both groups have established relationships with Chinese researcher groups, providing the opportunity of additional synergies.


 French members: 

M. Winter, J. Baudot, A. Besson, A. Dorokhov, M. Kachel, C. Hu-Guo, F. Morel

Japanese members:

Y. Arai, K. Hara, I. Kurachi, A. Ishikawa,  T. Miyoshi, T. Tsuboyama, M. Yamada

References:



Websites:

http://rd.kek.jp/project/soi/index.html

------------------------------- 

 D_RD_17: Development of high-speed detector readout system 

Summary:

In recent high energy physics experiments, the data size and trigger rate have much been increased and the software processing on the CPU can cause a bottleneck. In this project, we are going to develop a very fast detector readout system, which can be used for the Belle II experiment. The system receives the data from the detector frontend through optical fibers, performs the event formatting and reduction, and transfer the output to the backend. The board is to be equipped with an up-to-date FPGA (field programmable gate array) chip and the software processing is replaced with an FPGA logic programmed in the hardware language. A high-density optical receivers are implemented on the board to receive a large number of detector signals in order to reduce the total number of readout boards. The outputs are transferred to the backend PC farm through either 10GbE Ethernet or PCI-express interface. 

The development requires a high-skill in hardware and firmware development. French group have a lot of experience in developing various FPGA based readout systems. Japanese group are the core members of Belle II DAQ group, who have the accumulated experiences in the readout operation in the Belle and Belle II experiments.

French members: 

D. Charlet, C. Beigbeder, E. Jule, E. Kou, F. Le Diberder, E. Plaige, P. Robbe, M. Taurigna

Japanese members:

S. Yamada, R. Itoh, M. Nakao, Q. Zhou, T. Kunigo

References: 

[1] S. Yamada, R. Itoh, K. Nakamura, M. Nakao, S. Y. Suzuki, T. Konno, T. Higuchi, "Data Acquisition System for the Belle II Experiment", IEEE Transactions on Nuclear Science, vol. 62, issue 3, pp. 1175-1180, 2015.

[2] J.P. Cachemiche, P.Y. Duval, F. Hachon, R. Le Gac and F. Rethore, "ThePCIe-based readout system for the LHCb experiment", Topical Workshop on Electronics for Particle Physics, Sep 2015, Lis- bon, Portugal, Journal of Instrumentation 11 (2016) P02013.



------------------------------- 

D_RD_18: Toward the technology choice for the TPC of the ILD detector
 Summary: 

The previous project D_RD_02 allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated.
Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now being intensively worked on, including cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.


French members:
-<
<
+S. Ganjour, D. Attié, P. Colas, A. Giganon, I. Giomataris, V. Sharyy, B. Tuchming
->
>
+S. Ganjour, D. Attié, P. Colas, I. Giomataris, S. Joshi, M. Titov, B. Tuchming
 Japanese members:
-<
<
+K. Fujii, Y. Aoki, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, S. Narita, K. Negishi, T. Ogawa, A. Shoji, A. Sugiyama, T. Takahashi, T. Watanabe
->
>
+K. Fujii, Y. Aoki, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, S. Narita, K. Negishi, A. Shoji, A. Sugiyama, T. Takahashi, T. Watanabe, K. Yumino, J. Nakajima
 References:

[1] LCTPC Collaboration (David Attié, et al.), "A Time Projection Chamber with GEM-Based Readout", Nucl.Instrum.Meth. A856 (2017) 109-118
  -------------------------------
-<
<
+D_RD_15: Innovative design concepts in P doped bulk planar pixel sensors
->
>
+D_RD_19: LiquidO R&D novel detector concept for neutrino experiments
 Summary:
-<
<
+Our aim within the FJPPL is to develop and improve, around French and Japanese collaborators at LAL Orsay, KEK and Tsukuba University, respectively, a strong expertise on tracking detectors for future experiments, with international visibility. The detector upgrade programs underway in ATLAS for HL-LHC will be occasions to improve and optimize the planar pixel technology, which is a particularly well established technology for vertex detectors. The challenge consists in building more granular and thinner P doped sensor devices while keeping the goal of achieving cost effective solutions for large surfaces of sensitive material. This technology, even if it is mature, still needs to prove sufficient radiation hardness in the innermost region, close to the HL-LHC beam crossing environment. The activity within the project includes several of the critical tasks needed to develop this technology.
->
>
+The LiquidO R&D programme aims to address the first realisation of the LiquidO detector in the context of fundamental neutrino research. Both detector demonstration (including some degree of R&D) and the first prospected physics programme of fundamental research are being addressed. LiquidO has been confidential research programme released only in Sept-2018 [1,2]. Beyond fundamental research application such as neutrino detection and rate decay physics, such as ββ and proton decays, LiquidO appears to have breakthrough capabilities in terms of applied detection technology in the context of medical, homeland-security and nuclear non-proliferation technology. This FJPPL is the first step for further France-Japan collaboration in LiquidO which was initiated thanks to the Blaise Pascal Chair of Prof. Suekane hosted in APC-CNRS/IN2P3 (Paris, France) in 2017-2018.
 French members:
-<
<
+A. Lounis, P. Petroff, R. Tanaka, D. Varouchas
->
>
+A. Cabrera, F. Yermia, B. Viaud, C. Marquet, E. Chauveau
 Japanese members:
-<
<
+K. Hara, Y. Ikegami, K. Nakamura, H. Okawa, Y. Unno
->
>
+F. Suekane
 References:
-<
<
+[1] Achievements of the ATLAS upgrade Planar Pixel Sensors R&D Project, Journal of Instrumentation, JINST 10 C01027, 21 Jan. 2015

[2] Development of novel n+-in-p silicon planar pixel sensors for HL-LHC, Nuclear Instruments and Methods A699 (2013) 72-77

[3] Evaluation of novel KEK/HPK n-in-p pixel sensors for ATLAS upgrade with testbeam, Nuclear Instruments and Methods A699 (2013) 78-83

[4] Leading edge of the technological developments of Planar Pixel Sensors and prospects for ATLAS HL-LHC, A. Lounis, IEEE seoul 2013, proceedings, 22 Nov. 2013


Websites:

http://hep-www.px.tsukuba.ac.jp/~hara/PbulkPixel.html
->
>
+[1] First LiquidO  Physics Release: ββ-Decay Physics. NOW-2018 Conference. Ostuni. Italy (Sept-2018)

Conference: http://www.ba.infn.it/~now/now2018/index.html

Talk: http://www.ba.infn.it/~now/now2018/assets/2018sept_firstliquido%40now2018_anatael.pdf 

[2] ββ-Decay Fundamental Research Workshop — France. APC Laboratory. Paris, France (Sept-2018)

Workshop: https://indico.in2p3.fr/event/17804/

Talk: https://indico.in2p3.fr/event/17804/contributions/64467/attachments/49788/63356/2018Sept-LiquidO-France_Anatael.pdf
 -------------------------------
-<
<
+D_RD_16: Development of Advanced Monolithic Pixel Detector
->
>
+D_RD_20: *New Challenge for Internal Pixel Tracker construction (2019-2024)
 Summary:
-<
<
+      The next generation of lepton colliders (such as the ILC) requires a vertex detector with utmost precision, calling for tiny pixels located very close to the interaction point. The consecutive hit rate generated by the beam related background imposes the pixel read-out to be fast enough to keep the occupancy at an acceptable level. The consecutive complexity of the read-out circuitry, however, relies on a footprint which tends to conflict with the restricted pixel dimensions and can generate sizeable power consumption. The conflict is enhanced by material budget restrictions, which clearly favour monolithic devices instead of hybrid ones;

    These observations have motivated a long-term development of various pixel technologies, among which several ones exploiting industrial CMOS processes. The latter have shown to be the most promising among all alternatives considered up to now. The most advanced R&D however did not yet fully solve the conflict between precision, read-out speed and power consumption. It is the objective of the present partnership to overcome the remaining obstacles, its ultimate goal being a single bunch crossing tagging capability with pixels providing a precision better than 3 μm.To reach these target values, the strategy will consist in combining the advantages of the CMOS and SOI technologies in a partnership between two teams concentrating the necessary know-how in both technologies.

    The IPHC group has a long history in developing monolithic CMOS Pixel Sensors (CPS). MIMOSA chips are used in a variety of devices, the PXL detector of the STAR experiment (Fig. 1) at BNL acting as a flagship for the benefits of CPS in charmed meson tagging, based on its recently completed 3 years long physics programme.

    The Japanese group has been developing monolithic pixel sensors by using a Silicon-on-Insulator (SOI) technology. The SOI detector has both sensor and (CMOS) circuit layers in a wafer as shown in Fig. 2. The process is very flexible, providing great capabilities of developing new detectors. In addition to charged particle detection, both groups are also working for X-Ray detection.

    Their partnership will reinforce the development of both technologies due to the enhanced chip designing and testing capabilities. Furthermore, both groups have established relationships with Chinese researcher groups, providing the opportunity of additional synergies.
->
>
+Our aim within the FJPPL is to develop and improve, around French and Japanese collaborators at LAL Orsay, KEK and Tsukuba University, respectively, a strong expertise on tracking detectors for future experiments, with international visibility. The detector upgrade programs underway in ATLAS for HL-LHC will be occasions to improve and optimize the planar pixel technology, which is a particularly well established technology for vertex detectors. The challenge consists in building more granular and thinner P doped sensor devices while keeping the goal of achieving cost effective solutions for large surfaces of sensitive material. This technology, even if it is mature, still needs to prove sufficient radiation hardness in the innermost region, close to the HL-LHC beam crossing environment. The activity within the project includes several of the critical tasks needed to develop this technology.
  French members:
-<
<
+M. Winter, J. Baudot, A. Besson, A. Dorokhov, C. Hu-Guo, F. Morel, A. Perez
->
>
+R. Tanaka, A. Lounis, M. Escalier, L. Huo
 Japanese members:
-<
<
+Y. Arai, K. Hara, S. Kishimoto, I. Kurachi, T. Miyoshi, M. Togawa, T. Tsuboyama
->
>
+K. Hara,  K. Nakamura, Y. Unno
 References:
->
>
+[1] Achievements of the ATLAS upgrade Planar Pixel Sensors R&D Project, Journal of Instrumentation, JINST 10 C01027, 21 Jan. 2015

[2] Development of novel n+-in-p silicon planar pixel sensors for HL-LHC, Nuclear Instruments and Methods A699 (2013) 72-77

[3] Evaluation of novel KEK/HPK n-in-p pixel sensors for ATLAS upgrade with testbeam, Nuclear Instruments and Methods A699 (2013) 78-83

[4] Leading edge of the technological developments of Planar Pixel Sensors and prospects for ATLAS HL-LHC, A. Lounis, IEEE seoul 2013, proceedings, 22 Nov. 2013
-<
<
+Websites:

http://rd.kek.jp/project/soi/index.html
->
>
+http://hep-www.px.tsukuba.ac.jp/~hara/PbulkPixel.html
 -------------------------------
-<
<
+ D_RD_17: Development of high-speed detector readout system
->
>
+D_RD_21: Direction-sensitive dark matter detection with gaseous tracking Detectors
 Summary:
-<
<
+In recent high energy physics experiments, the data size and trigger rate have much been increased and the software processing on the CPU can cause a bottleneck. In this project, we are going to develop a very fast detector readout system, which can be used for the Belle II experiment. The system receives the data from the detector frontend through optical fibers, performs the event formatting and reduction, and transfer the output to the backend. The board is to be equipped with an up-to-date FPGA (field programmable gate array) chip and the software processing is replaced with an FPGA logic programmed in the hardware language. A high-density optical receivers are implemented on the board to receive a large number of detector signals in order to reduce the total number of readout boards. The outputs are transferred to the backend PC farm through either 10GbE Ethernet or PCI-express interface. 

The development requires a high-skill in hardware and firmware development. French group have a lot of experience in developing various FPGA based readout systems. Japanese group are the core members of Belle II DAQ group, who have the accumulated experiences in the readout operation in the Belle and Belle II experiments.
->
>
 French members:
-<
<
+D. Charlet, C. Beigbeder, E. Kou, F. Le Diberder
->
>
+D. Santos, C. Tao, F. Naraghi, O. Guillaudin, J.-F. Muraz, C. Beaufort
 Japanese members:
-<
<
+S. Yamada, R. Itoh, M. Nakao
->
>
+K. Miuchi, H. Ishiura, T. Shimada
 References:
-<
<
+[1] S. Yamada, R. Itoh, K. Nakamura, M. Nakao, S. Y. Suzuki, T. Konno, T. Higuchi, "Data Acquisition System for the Belle II Experiment", IEEE Transactions on Nuclear Science, vol. 62, issue 3, pp. 1175-1180, 2015.

[2] J.P. Cachemiche, P.Y. Duval, F. Hachon, R. Le Gac and F. Rethore, "ThePCIe-based readout system for the LHCb experiment", Topical Workshop on Electronics for Particle Physics, Sep 2015, Lis- bon, Portugal, Journal of Instrumentation 11 (2016) P02013.
 -------------------------------
-<
<
+D_RD_19: LiquidO R&D novel detector concept for neutrino experiments
->
>
+D_RD_22: Innovative diamond based detector development for charged particle detection
 Summary:
-<
<
+The LiquidO R&D programme aims to address the first realisation of the LiquidO detector in the context of fundamental neutrino research. Both detector demonstration (including some degree of R&D) and the first prospected physics programme of fundamental research are being addressed. LiquidO has been confidential research programme released only in Sept-2018 [1,2]. Beyond fundamental research application such as neutrino detection and rate decay physics, such as ββ and proton decays, LiquidO appears to have breakthrough capabilities in terms of applied detection technology in the context of medical, homeland-security and nuclear non-proliferation technology. This FJPPL is the first step for further France-Japan collaboration in LiquidO which was initiated thanks to the Blaise Pascal Chair of Prof. Suekane hosted in APC-CNRS/IN2P3 (Paris, France) in 2017-2018.
->
>
 French members:
-<
<
+A. Cabrera, M. Grassi
->
>
+M.-L. Gallin-Martel, A. Portier, F. Rarbi, N. Servagent, C. Koumeir, P. Bambade, J. Pernot
 Japanese members:
-<
<
+F. Suekane
->
>
+H. Nishiguchi, S. Koizumi, M. Tanaka, T. Kishishita
 References:
-<
<
+[1] First LiquidO  Physics Release: ββ-Decay Physics. NOW-2018 Conference. Ostuni. Italy (Sept-2018)

Conference: http://www.ba.infn.it/~now/now2018/index.html

Talk: http://www.ba.infn.it/~now/now2018/assets/2018sept_firstliquido%40now2018_anatael.pdf 

[2] ββ-Decay Fundamental Research Workshop — France. APC Laboratory. Paris, France (Sept-2018)

Workshop: https://indico.in2p3.fr/event/17804/

Talk: https://indico.in2p3.fr/event/17804/contributions/64467/attachments/49788/63356/2018Sept-LiquidO-France_Anatael.pdf
->
>

Revision 242018-10-02 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09: Toward the final design of a TPC for the ILD detector

Line: 86 to 86

References:
[1] S. Yamada, R. Itoh, K. Nakamura, M. Nakao, S. Y. Suzuki, T. Konno, T. Higuchi, "Data Acquisition System for the Belle II Experiment", IEEE Transactions on Nuclear Science, vol. 62, issue 3, pp. 1175-1180, 2015.
[2] J.P. Cachemiche, P.Y. Duval, F. Hachon, R. Le Gac and F. Rethore, "ThePCIe-based readout system for the LHCb experiment", Topical Workshop on Electronics for Particle Physics, Sep 2015, Lis- bon, Portugal, Journal of Instrumentation 11 (2016) P02013.

Added:

>
>

-------------------------------

D_RD_19: LiquidO R&D novel detector concept for neutrino experiments

Summary:
The LiquidO R&D programme aims to address the first realisation of the LiquidO detector in the context of fundamental neutrino research. Both detector demonstration (including some degree of R&D) and the first prospected physics programme of fundamental research are being addressed. LiquidO has been confidential research programme released only in Sept-2018 [1,2]. Beyond fundamental research application such as neutrino detection and rate decay physics, such as ββ and proton decays, LiquidO appears to have breakthrough capabilities in terms of applied detection technology in the context of medical, homeland-security and nuclear non-proliferation technology. This FJPPL is the first step for further France-Japan collaboration in LiquidO which was initiated thanks to the Blaise Pascal Chair of Prof. Suekane hosted in APC-CNRS/IN2P3 (Paris, France) in 2017-2018.

French members:
A. Cabrera, M. Grassi

Japanese members:
F. Suekane

References:
[1] First LiquidO Physics Release: ββ-Decay Physics. NOW-2018 Conference. Ostuni. Italy (Sept-2018)
Conference: http://www.ba.infn.it/~now/now2018/index.html
Talk: http://www.ba.infn.it/~now/now2018/assets/2018sept_firstliquido%40now2018_anatael.pdf
[2] ββ-Decay Fundamental Research Workshop — France. APC Laboratory. Paris, France (Sept-2018)
Workshop: https://indico.in2p3.fr/event/17804/
Talk: https://indico.in2p3.fr/event/17804/contributions/64467/attachments/49788/63356/2018Sept-LiquidO-France_Anatael.pdf

Revision 232018-09-09 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 74 to 68

Websites:
http://rd.kek.jp/project/soi/index.html \ No newline at end of file

Added:

>
>

-------------------------------

D_RD_17: Development of high-speed detector readout system

Summary:
In recent high energy physics experiments, the data size and trigger rate have much been increased and the software processing on the CPU can cause a bottleneck. In this project, we are going to develop a very fast detector readout system, which can be used for the Belle II experiment. The system receives the data from the detector frontend through optical fibers, performs the event formatting and reduction, and transfer the output to the backend. The board is to be equipped with an up-to-date FPGA (field programmable gate array) chip and the software processing is replaced with an FPGA logic programmed in the hardware language. A high-density optical receivers are implemented on the board to receive a large number of detector signals in order to reduce the total number of readout boards. The outputs are transferred to the backend PC farm through either 10GbE Ethernet or PCI-express interface.
The development requires a high-skill in hardware and firmware development. French group have a lot of experience in developing various FPGA based readout systems. Japanese group are the core members of Belle II DAQ group, who have the accumulated experiences in the readout operation in the Belle and Belle II experiments.

French members:
D. Charlet, C. Beigbeder, E. Kou, F. Le Diberder

Japanese members:
S. Yamada, R. Itoh, M. Nakao

References:
[1] S. Yamada, R. Itoh, K. Nakamura, M. Nakao, S. Y. Suzuki, T. Konno, T. Higuchi, "Data Acquisition System for the Belle II Experiment", IEEE Transactions on Nuclear Science, vol. 62, issue 3, pp. 1175-1180, 2015.
[2] J.P. Cachemiche, P.Y. Duval, F. Hachon, R. Le Gac and F. Rethore, "ThePCIe-based readout system for the LHCb experiment", Topical Workshop on Electronics for Particle Physics, Sep 2015, Lis- bon, Portugal, Journal of Instrumentation 11 (2016) P02013.

Revision 222017-09-05 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 13 to 13

K. Fujii, Y. Aoki, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, S. Narita, K. Negishi, T. Ogawa, A. Shoji, A. Sugiyama, T. Takahashi, T. Watanabe

References:

Changed:

<
<

[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)
[2] R. Yonamine, K. Fujii, K. Ikematsu, A. Ishikawa, T. Fusayasu, P. Gros, Y. Kato and S. Kawada et al., “Spatial resolutions of GEM TPC.A novel theoretical formula and its comparison to latest beam test data”, JINST 9, C03002 (2014)
[3] P. Gros, K. Fujii, T. Fusayasu, Y. Kato, S. Kawada, M. Kobayashi, T. Matsuda and O. Nitoh et al., “Blocking positive ion backflow using a GEM gate: experiment and simulations,” JINST 8, C11023 (2013)

>
>

[1] LCTPC Collaboration (David Attié, et al.), "A Time Projection Chamber with GEM-Based Readout", Nucl.Instrum.Meth. A856 (2017) 109-118 [2] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)
[3] R. Yonamine, K. Fujii, K. Ikematsu, A. Ishikawa, T. Fusayasu, P. Gros, Y. Kato and S. Kawada et al., “Spatial resolutions of GEM TPC.A novel theoretical formula and its comparison to latest beam test data”, JINST 9, C03002 (2014)
[4] P. Gros, K. Fujii, T. Fusayasu, Y. Kato, S. Kawada, M. Kobayashi, T. Matsuda and O. Nitoh et al., “Blocking positive ion backflow using a GEM gate: experiment and simulations,” JINST 8, C11023 (2013)

Websites:
http://irfu.cea.fr/ILC-TPC/

Revision 212017-09-04 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Summary:

Changed:

<
<

The D_RD_02 project allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated.

>
>

The previous project D_RD_02 allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated.

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now being intensively worked on, including cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

French members :

Line: 39 to 39

[1] Achievements of the ATLAS upgrade Planar Pixel Sensors R&D Project, Journal of Instrumentation, JINST 10 C01027, 21 Jan. 2015
[2] Development of novel n+-in-p silicon planar pixel sensors for HL-LHC, Nuclear Instruments and Methods A699 (2013) 72-77
[3] Evaluation of novel KEK/HPK n-in-p pixel sensors for ATLAS upgrade with testbeam, Nuclear Instruments and Methods A699 (2013) 78-83

Changed:

<
<

[4] Leading edge of the technological developments of Planar Pixel Sensors and prospects for ATLAS HL-LHC, A. Lounis, IEEE seoul 2013, proceedings, 22 Nov. 201

>
>

[4] Leading edge of the technological developments of Planar Pixel Sensors and prospects for ATLAS HL-LHC, A. Lounis, IEEE seoul 2013, proceedings, 22 Nov. 2013

Websites:
http://hep-www.px.tsukuba.ac.jp/~hara/PbulkPixel.html

Revision 202017-09-04 - Main.GenevieveGilbert

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 52 to 52

Summary :

Added:

>
>

The next generation of lepton colliders (such as the ILC) requires a vertex detector with utmost precision, calling for tiny pixels located very close to the interaction point. The consecutive hit rate generated by the beam related background imposes the pixel read-out to be fast enough to keep the occupancy at an acceptable level. The consecutive complexity of the read-out circuitry, however, relies on a footprint which tends to conflict with the restricted pixel dimensions and can generate sizeable power consumption. The conflict is enhanced by material budget restrictions, which clearly favour monolithic devices instead of hybrid ones;

These observations have motivated a long-term development of various pixel technologies, among which several ones exploiting industrial CMOS processes. The latter have shown to be the most promising among all alternatives considered up to now. The most advanced R&D however did not yet fully solve the conflict between precision, read-out speed and power consumption. It is the objective of the present partnership to overcome the remaining obstacles, its ultimate goal being a single bunch crossing tagging capability with pixels providing a precision better than 3 μm.To reach these target values, the strategy will consist in combining the advantages of the CMOS and SOI technologies in a partnership between two teams concentrating the necessary know-how in both technologies.

The IPHC group has a long history in developing monolithic CMOS Pixel Sensors (CPS). MIMOSA chips are used in a variety of devices, the PXL detector of the STAR experiment (Fig. 1) at BNL acting as a flagship for the benefits of CPS in charmed meson tagging, based on its recently completed 3 years long physics programme.

The Japanese group has been developing monolithic pixel sensors by using a Silicon-on-Insulator (SOI) technology. The SOI detector has both sensor and (CMOS) circuit layers in a wafer as shown in Fig. 2. The process is very flexible, providing great capabilities of developing new detectors. In addition to charged particle detection, both groups are also working for X-Ray detection.

Their partnership will reinforce the development of both technologies due to the enhanced chip designing and testing capabilities. Furthermore, both groups have established relationships with Chinese researcher groups, providing the opportunity of additional synergies.

French members :
M. Winter, J. Baudot, A. Besson, A. Dorokhov, C. Hu-Guo, F. Morel, A. Perez Japanese members :

Line: 61 to 71

Websites:

Added:

>
>

http://rd.kek.jp/project/soi/index.html

\ No newline at end of file

Revision 192017-07-06 - Main.GenevieveGilbert

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 10 to 10

S. Ganjour, D. Attié, P. Colas, A. Giganon, I. Giomataris, V. Sharyy, B. Tuchming

Japanese members :

Changed:

<
<

K. Fujii, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, S. Narita, K. Negishi, A. Sugiyama, T. Takahashi, T. Watanabe

>
>

K. Fujii, Y. Aoki, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, S. Narita, K. Negishi, T. Ogawa, A. Shoji, A. Sugiyama, T. Takahashi, T. Watanabe

References:
[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)

Revision 182017-06-29 - Main.GenevieveGilbert

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 7 to 7

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now being intensively worked on, including cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

French members :

Changed:

<
<

S. Ganjour, D. Attié, D. Bhattacharya, P. Colas, A. Giganon, I. Giomataris

>
>

S. Ganjour, D. Attié, P. Colas, A. Giganon, I. Giomataris, V. Sharyy, B. Tuchming

Japanese members :

Changed:

<
<

K. Fujii, T. Fusayasu, K. Ikematsu, K. Kato, M. Kobayashi, T. Matsuda, T. Ogawa, A. Sugiyama, T. Takahashi, T. Watanabe

>
>

K. Fujii, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, S. Narita, K. Negishi, A. Sugiyama, T. Takahashi, T. Watanabe

References:
[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)

Line: 30 to 30

Our aim within the FJPPL is to develop and improve, around French and Japanese collaborators at LAL Orsay, KEK and Tsukuba University, respectively, a strong expertise on tracking detectors for future experiments, with international visibility. The detector upgrade programs underway in ATLAS for HL-LHC will be occasions to improve and optimize the planar pixel technology, which is a particularly well established technology for vertex detectors. The challenge consists in building more granular and thinner P doped sensor devices while keeping the goal of achieving cost effective solutions for large surfaces of sensitive material. This technology, even if it is mature, still needs to prove sufficient radiation hardness in the innermost region, close to the HL-LHC beam crossing environment. The activity within the project includes several of the critical tasks needed to develop this technology.

French members :

Changed:

<
<

A. Lounis, Evangelos Gkougkousis, C. Nellist, P. Petroff, R. Tanaka

>
>

A. Lounis, P. Petroff, R. Tanaka, D. Varouchas

Japanese members :
K. Hara, Y. Ikegami, K. Nakamura, H. Okawa, Y. Unno

Line: 43 to 43

Websites:
http://hep-www.px.tsukuba.ac.jp/~hara/PbulkPixel.html \ No newline at end of file

Added:

>
>

-------------------------------

D_RD_16 : Development of Advanced Monolithic Pixel Detector

Summary :

French members :
M. Winter, J. Baudot, A. Besson, A. Dorokhov, C. Hu-Guo, F. Morel, A. Perez Japanese members :
Y. Arai, K. Hara, S. Kishimoto, I. Kurachi, T. Miyoshi, M. Togawa, T. Tsuboyama

References:

Websites:

\ No newline at end of file

Revision 172016-08-02 - Main.GenevieveGilbert

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 24 to 24

-------------------------------

Deleted:

<
<

D_RD_11 : Prototype development of a positron emission tomography detector using liquid Xenon

Summary :
This is a proposal to start a new series of R&D on liquid xenon as detectors of the gamma ray applied to PET (Positron Emission Tomography) technology by the SUBATECH Laboratory (http://www-subatech.in2p3.fr/en/research/nuclear-and-health/xenon/about), Ecole des Mines de Nantes, and KEK (http://rd.kek.jp/project/LXe/index_e.html). Recently SUBATECH group has established a technology to measure a small ionization signal in liquid xenon by using a dedicated electronics coupled to readout pads though ceramic feedthough connectors. In parallel in Japan new photo sensors for the use in liquid xenon temperature to measure its scintillation light are being developed with finer segmentations; Avalance Photo diode (APD), SiPM, and multi-anode photomultipliers. These new technologies are supported by developments made in a series of R&D ever performed by the SUBATCH-KEK collaboration. The proposal is addressing concrete tests on prototypes located both at KEK and Suabtech; they will focus on the understanding of liquid xenon properties for medical imaging. In parallel, the groups will prepare the next experiment XEMIS2 which will be installed in 2015 at the Nantes hospital to image small animals

French members :
D. Thers, N. Beaupere, J-P. Cussonneau, J. Masbou, E. Morteau, L. Scotto-Lavina

Japanese members :
S. Mihara, K. Kasami, S. Tanaka, T. Tauchi, T. Saeki

References:

Websites:

-------------------------------

D_RD_14 : Development of photosensor with SOI technology

Summary :
This project is a collaboration of Japanese SOI sensor group and French OMEGA microelectronics group. In this project we will develop new photon image sensors by using a Silicon-On-Insulator (SOI) technology and readout ASICs/modules for photon detectors. SOI pixel detector has been developed in KEK Detector Technology Project mainly for charged particle tracking and X-ray imaging. By combining linear mode avalanche process and SOI-CMOS signal processing power, we are aiming to develop high-sensitivity image sensors for visible light and low-energy X-ray. We also develop readout ASICs and modules for photon detectors such as APD or PPD (SiPM) mainly by the OMEGA group. The OMEGA group has rich experience in developing readout ASICs. By collaborating these groups, new photon detection system for many scientific researches will be realized.

French members :
C. de la Taille, S. Callier

Japanese members :
Y. Arai, C. Cassidy, I. Kurachi, T. Miyoshi, I. Nakamura, T. Nakaya, W. Otani, T. Takeshita

References:
[1] Y. Arai, ‘Progress on Silicon-on-Insulator Monolithic Pixel Process’, Proceedings of Science, PoS(Vertex 2013)021
[2] C. de la Taille, ‘SiGe technology for HEP readout ASICs’

Websites:
http://omega.in2p3.fr
http://rd.kek.jp/project/soi/

-------------------------------

D_RD_15 : Innovative design concepts in P doped bulk planar pixel sensors

Summary :

Revision 162015-09-14 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Summary:
The D_RD_02 project allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated.

Changed:

<
<

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now well advanced, including cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

>
>

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now being intensively worked on, including cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

French members :
S. Ganjour, D. Attié, D. Bhattacharya, P. Colas, A. Giganon, I. Giomataris

Japanese members :

Changed:

<
<

K. Fujii, T. Fusayasu, K. Ikematsu, K. Kato, M. Kobayashi, T. Matsuda, O. Nitoh, T. Ogawa, A. Sugiyama, T. Takahashi, T. Watanabe

>
>

K. Fujii, T. Fusayasu, K. Ikematsu, K. Kato, M. Kobayashi, T. Matsuda, T. Ogawa, A. Sugiyama, T. Takahashi, T. Watanabe

References:
[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)

Revision 152015-09-11 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Summary:
The D_RD_02 project allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated.

Changed:

<
<

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now fully addressed: cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

>
>

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now well advanced, including cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

French members :
S. Ganjour, D. Attié, D. Bhattacharya, P. Colas, A. Giganon, I. Giomataris

Revision 142015-09-11 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Summary:
The D_RD_02 project allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated. Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now fully addressed: cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

Deleted:

<
<

The D_RD_02 allowed a ‘proof of principle’ that MPGDs (Micromegas and GEMs) are adequate for electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to fulfill the requirement, and the operation in a beam was demonstrated. Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now fully addressed: cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

French members :

Changed:

<
<

P. Colas, D. Attié, D. Bhattacharya, S. Ganjour, A. Giganon, I. Giomataris

>
>

S. Ganjour, D. Attié, D. Bhattacharya, P. Colas, A. Giganon, I. Giomataris

Japanese members :
K. Fujii, T. Fusayasu, K. Ikematsu, K. Kato, M. Kobayashi, T. Matsuda, O. Nitoh, T. Ogawa, A. Sugiyama, T. Takahashi, T. Watanabe

Revision 132015-07-17 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 16 to 16

K. Fujii, T. Fusayasu, K. Ikematsu, K. Kato, M. Kobayashi, T. Matsuda, O. Nitoh, T. Ogawa, A. Sugiyama, T. Takahashi, T. Watanabe

References:

Changed:

<
<

[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013) http://irfu.cea.fr/Phocea/file.php?class=std&file=Doc/Publications/Archives/irfu-13-03-T.pdf

>
>

[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)

[2] R. Yonamine, K. Fujii, K. Ikematsu, A. Ishikawa, T. Fusayasu, P. Gros, Y. Kato and S. Kawada et al., “Spatial resolutions of GEM TPC.A novel theoretical formula and its comparison to latest beam test data”, JINST 9, C03002 (2014)
[3] P. Gros, K. Fujii, T. Fusayasu, Y. Kato, S. Kawada, M. Kobayashi, T. Matsuda and O. Nitoh et al., “Blocking positive ion backflow using a GEM gate: experiment and simulations,” JINST 8, C11023 (2013)

Line: 50 to 49

D_RD_14 : Development of photosensor with SOI technology

Summary :

Added:

>
>

This project is a collaboration of Japanese SOI sensor group and French OMEGA microelectronics group. In this project we will develop new photon image sensors by using a Silicon-On-Insulator (SOI) technology and readout ASICs/modules for photon detectors. SOI pixel detector has been developed in KEK Detector Technology Project mainly for charged particle tracking and X-ray imaging. By combining linear mode avalanche process and SOI-CMOS signal processing power, we are aiming to develop high-sensitivity image sensors for visible light and low-energy X-ray. We also develop readout ASICs and modules for photon detectors such as APD or PPD (SiPM) mainly by the OMEGA group. The OMEGA group has rich experience in developing readout ASICs. By collaborating these groups, new photon detection system for many scientific researches will be realized.

French members :
C. de la Taille, S. Callier

Line: 58 to 59

Y. Arai, C. Cassidy, I. Kurachi, T. Miyoshi, I. Nakamura, T. Nakaya, W. Otani, T. Takeshita

References:

Added:

>
>

[1] Y. Arai, ‘Progress on Silicon-on-Insulator Monolithic Pixel Process’, Proceedings of Science, PoS(Vertex 2013)021
[2] C. de la Taille, ‘SiGe technology for HEP readout ASICs’

Websites:

Added:

>
>

http://omega.in2p3.fr
http://rd.kek.jp/project/soi/

-------------------------------

Revision 122015-07-16 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 21 to 21

[2] R. Yonamine, K. Fujii, K. Ikematsu, A. Ishikawa, T. Fusayasu, P. Gros, Y. Kato and S. Kawada et al., “Spatial resolutions of GEM TPC.A novel theoretical formula and its comparison to latest beam test data”, JINST 9, C03002 (2014)
[3] P. Gros, K. Fujii, T. Fusayasu, Y. Kato, S. Kawada, M. Kobayashi, T. Matsuda and O. Nitoh et al., “Blocking positive ion backflow using a GEM gate: experiment and simulations,” JINST 8, C11023 (2013)

Changed:

<
<

websites:

>
>

Websites:

http://irfu.cea.fr/ILC-TPC/
http://www-jlc.kek.jp/jlc/en/subg/tpc
http://www-hep.phys.saga-u.ac.jp/ILC-TPC/

Line: 43 to 43

References:

Changed:

<
<

websites:

>
>

Websites:

-------------------------------

Line: 59 to 59

References:

Changed:

<
<

websites:

>
>

Websites:

-------------------------------

D_RD_15 : Innovative design concepts in P doped bulk planar pixel sensors

Summary :

Added:

>
>

Our aim within the FJPPL is to develop and improve, around French and Japanese collaborators at LAL Orsay, KEK and Tsukuba University, respectively, a strong expertise on tracking detectors for future experiments, with international visibility. The detector upgrade programs underway in ATLAS for HL-LHC will be occasions to improve and optimize the planar pixel technology, which is a particularly well established technology for vertex detectors. The challenge consists in building more granular and thinner P doped sensor devices while keeping the goal of achieving cost effective solutions for large surfaces of sensitive material. This technology, even if it is mature, still needs to prove sufficient radiation hardness in the innermost region, close to the HL-LHC beam crossing environment. The activity within the project includes several of the critical tasks needed to develop this technology.

French members :

Changed:

<
<

A. Lounis, C. Nellist, P. Petroff, R. Tanaka

>
>

A. Lounis, Evangelos Gkougkousis, C. Nellist, P. Petroff, R. Tanaka

Japanese members :
K. Hara, Y. Ikegami, K. Nakamura, H. Okawa, Y. Unno

References:

Added:

>
>

[1] Achievements of the ATLAS upgrade Planar Pixel Sensors R&D Project, Journal of Instrumentation, JINST 10 C01027, 21 Jan. 2015
[2] Development of novel n+-in-p silicon planar pixel sensors for HL-LHC, Nuclear Instruments and Methods A699 (2013) 72-77
[3] Evaluation of novel KEK/HPK n-in-p pixel sensors for ATLAS upgrade with testbeam, Nuclear Instruments and Methods A699 (2013) 78-83
[4] Leading edge of the technological developments of Planar Pixel Sensors and prospects for ATLAS HL-LHC, A. Lounis, IEEE seoul 2013, proceedings, 22 Nov. 201

Deleted:

<
<

websites:

\ No newline at end of file

Added:

>
>

Websites:
http://hep-www.px.tsukuba.ac.jp/~hara/PbulkPixel.html

Revision 112015-07-15 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Line: 63 to 63

-------------------------------

Changed:

<
<

D_RD_15 : Innovative design concepts in P. `bulk Planar Pixel Sensors

>
>

D_RD_15 : Innovative design concepts in P doped bulk planar pixel sensors

Summary :

Revision 102015-06-23 - Main.GenevieveGilbert

 			 META TOPICPARENT 
			 name="FJPPLprojects" 
		
D_RD_09 : Toward the final design of a TPC for the ILD detector
- META TOPICPARENT
+ name="FJPPLprojects"
 French members :
-<
<
+P. Colas, D. Attié, D. Bhattacharya, A. Giganon, I. Giomataris
->
>
+P. Colas, D. Attié, D. Bhattacharya, S. Ganjour, A. Giganon, I. Giomataris
 Japanese members :
-<
<
+K. Fujii, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, T. Ogawa, A. Sugiyama, J. Tian, T. Watanabe
->
>
+K. Fujii, T. Fusayasu, K. Ikematsu, K. Kato, M. Kobayashi, T. Matsuda, O. Nitoh, T. Ogawa, A. Sugiyama, T. Takahashi, T. Watanabe
 References:

[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013)
  -------------------------------
-<
<
+D_RD_10 : R&D for fast timing photon detector system
->
>
+D_RD_11 : Prototype development of a positron emission tomography detector using liquid Xenon
 Summary:
-<
<
+Silicon mulitpliers (or MPPC) are new solid state photodetectors manufactured by Hamamatsu (among others) that provide single photon sensitivity and high timing accuracy (about 100 ps). Coupled to innovative mutli-channel ASICs that provide high accuracy charge and time measurements, they permit new detectors (TOF, calorimeters) in High Energy Physics, Nuclear experiments or societal applications (e.g. PET-MRI medical applications or vulcanology).
->
>
+This is a proposal to start a new series of R&D on liquid xenon as detectors of the gamma ray applied to PET (Positron Emission Tomography) technology by the SUBATECH Laboratory (http://www-subatech.in2p3.fr/en/research/nuclear-and-health/xenon/about), Ecole des Mines de Nantes, and KEK (http://rd.kek.jp/project/LXe/index_e.html).
Recently SUBATECH group has established a technology to measure a small ionization signal in liquid xenon by using a dedicated electronics coupled to readout pads though ceramic feedthough connectors. In parallel in Japan new photo sensors for the use in liquid xenon temperature to measure its scintillation light are being developed with finer segmentations; Avalance Photo diode (APD), SiPM, and multi-anode photomultipliers. These new technologies are supported by developments made in a series of R&D ever performed by the SUBATCH-KEK collaboration.
The proposal is addressing concrete tests on prototypes located both at KEK and Suabtech; they will focus on the understanding of liquid xenon properties for medical imaging. In parallel, the groups will prepare the next experiment XEMIS2 which will be installed in 2015 at the Nantes hospital to image small animals
 French members :
-<
<
+C. de la Taille, S. Callier, G. Martin-Chassard, L. Raux, N. Seguin-Moreau
->
>
+D. Thers, N. Beaupere, J-P. Cussonneau, J. Masbou, E. Morteau, L. Scotto-Lavina
 Japanese members :
-<
<
+I. Nakamura, K. Hanagaki, A. Nagaya, W. Ootani, T. Takeshita, M. Yokoyama, K. Yoshimura
->
>
+S. Mihara, K. Kasami, S. Tanaka, T. Tauchi, T. Saeki
 References :
-<
<
+[1] K. Miwa et al., "Test experiment for a performance evaluation of a scattered proton detector system for the Sigma-p scattering experiment E40", KEK/J-PARC-PAC 2013-4, http://j-parc.jp/researcher/Hadron/en/pac_1309/pdf/T54_2013-4.pdf:

[2] J. Fleury et al., "Petiroc and Citiroc: front-end ASICs for SiPM  read-out and ToF  applications", JINST 9 (2014) C01049:
->
>
+websites:
  -------------------------------
-<
<
+D_RD_11 : Prototype development of a positron emission tomography detector using liquid Xenon
->
>
+D_RD_14 : Development of photosensor with SOI technology
 Summary :
-<
<
+This is a proposal to start a new series of R&D on liquid xenon as detectors of the gamma ray applied to PET (Positron Emission Tomography) technology by the SUBATECH Laboratory (http://www-subatech.in2p3.fr/en/research/nuclear-and-health/xenon/about), Ecole des Mines de Nantes, and KEK (http://rd.kek.jp/project/LXe/index_e.html).
Recently SUBATECH group has established a technology to measure a small ionization signal in liquid xenon by using a dedicated electronics coupled to readout pads though ceramic feedthough connectors. In parallel in Japan new photo sensors for the use in liquid xenon temperature to measure its scintillation light are being developed with finer segmentations; Avalance Photo diode (APD), SiPM, and multi-anode photomultipliers. These new technologies are supported by developments made in a series of R&D ever performed by the SUBATCH-KEK collaboration.
The proposal is addressing concrete tests on prototypes located both at KEK and Suabtech; they will focus on the understanding of liquid xenon properties for medical imaging. In parallel, the groups will prepare the next experiment XEMIS2 which will be installed in 2015 at the Nantes hospital to image small animals
 French members :
-<
<
+D. Thers, J_P. Cussonneau, J. Masbou, E. Morteau, L. Scotto-Lavina
->
>
+C. de la Taille, S. Callier
 Japanese members :
-<
<
+S. Mihara, K. Kasami, S. Tanaka, T. Tauchi, T. Saeki
->
>
+Y. Arai, C. Cassidy, I. Kurachi, T. Miyoshi, I. Nakamura, T. Nakaya, W. Otani, T. Takeshita

References:


websites:
  -------------------------------
->
>
+D_RD_15 : Innovative design concepts in P. `bulk Planar Pixel Sensors 

Summary :


French members : 

A. Lounis, C. Nellist, P. Petroff, R. Tanaka

Japanese members :

K. Hara, Y. Ikegami, K. Nakamura, H. Okawa, Y. Unno

References:


websites:

Revision 92014-12-05 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

Summary:
The D_RD_02 project allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated.

Added:

>
>

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now fully addressed: cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.
The D_RD_02 allowed a ‘proof of principle’ that MPGDs (Micromegas and GEMs) are adequate for electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to fulfill the requirement, and the operation in a beam was demonstrated.

Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now fully addressed: cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

Added:

>
>

French members :
P. Colas, D. Attié, D. Bhattacharya, A. Giganon, I. Giomataris

Line: 10 to 13

P. Colas, D. Attié, D. Bhattacharya, A. Giganon, I. Giomataris

Japanese members :

Changed:

<
<

K. Fujii, T. Fusayasu, K. Kato, M. Kobayashi, T. Mastuda, O. Nitoh, A. Sugiyama, T. Watanabe

References

>
>

K. Fujii, T. Fusayasu, K. Kato, M. Kobayashi, T. Matsuda, T. Ogawa, A. Sugiyama, J. Tian, T. Watanabe

Changed:

<
<

website

>
>

References:
[1] W. Wang, ‘A Large Micromegas TPC for the ILC’, Thesis, Université Paris Sud (June 2013) http://irfu.cea.fr/Phocea/file.php?class=std&file=Doc/Publications/Archives/irfu-13-03-T.pdf
[2] R. Yonamine, K. Fujii, K. Ikematsu, A. Ishikawa, T. Fusayasu, P. Gros, Y. Kato and S. Kawada et al., “Spatial resolutions of GEM TPC.A novel theoretical formula and its comparison to latest beam test data”, JINST 9, C03002 (2014)
[3] P. Gros, K. Fujii, T. Fusayasu, Y. Kato, S. Kawada, M. Kobayashi, T. Matsuda and O. Nitoh et al., “Blocking positive ion backflow using a GEM gate: experiment and simulations,” JINST 8, C11023 (2013)

websites:
http://irfu.cea.fr/ILC-TPC/
http://www-jlc.kek.jp/jlc/en/subg/tpc
http://www-hep.phys.saga-u.ac.jp/ILC-TPC/

-------------------------------

Line: 30 to 40

I. Nakamura, K. Hanagaki, A. Nagaya, W. Ootani, T. Takeshita, M. Yokoyama, K. Yoshimura

References :

Changed:

<
<

[1] K. Miwa et al., "Test experiment for a performance evaluation of a scattered proton detector system for the Sigma-p scattering experiment E40", KEK/J-PARC-PAC 2013-4, http://j-parc.jp/researcher/Hadron/en/pac_1309/pdf/T54_2013-4.pdf [2] J. Fleury et al., "Petiroc and Citiroc: front-end ASICs for SiPM read-out and ToF applications", JINST 9 (2014) C01049

website

>
>

[1] K. Miwa et al., "Test experiment for a performance evaluation of a scattered proton detector system for the Sigma-p scattering experiment E40", KEK/J-PARC-PAC 2013-4, http://j-parc.jp/researcher/Hadron/en/pac_1309/pdf/T54_2013-4.pdf:
[2] J. Fleury et al., "Petiroc and Citiroc: front-end ASICs for SiPM read-out and ToF applications", JINST 9 (2014) C01049:

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Japanese members :
S. Mihara, K. Kasami, S. Tanaka, T. Tauchi, T. Saeki

Deleted:

<
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References

website

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Revision 82014-11-30 - Main.PhilipBambade

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META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : Toward the final design of a TPC for the ILD detector

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Summary

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>

Summary:
The D_RD_02 project allowed a ‘proof of principle’ of MPGDs (Micromegas and GEMs) for the electron amplification and readout of a TPC for the Linear Collider. The resolution of such an apparatus was understood and shown to be adequate, and the operation in a beam was demonstrated. Since 2013, a new project was started, as a preparatory step toward the construction of a TPC for the ILD experiment. Integration aspects are now fully addressed: cooling, distortion mitigation and correction, electronics design, gating and other issues, as well as the definition of criteria for the technology choice.

French members :
P. Colas, D. Attié, D. Bhattacharya, A. Giganon, I. Giomataris

Revision 72014-11-29 - Main.PhilipBambade

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META TOPICPARENT	name="FJPPLprojects"

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D_RD_09 : *Toward the final design of a TPC for the ILD detector

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D_RD_09 : Toward the final design of a TPC for the ILD detector

Summary

Revision 62014-10-01 - Main.GenevieveGilbert

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META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : *Toward the final design of a TPC for the ILD detector

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D_RD_10 : R&D for fast timing photon detector system

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<

Summary

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Summary:
Silicon mulitpliers (or MPPC) are new solid state photodetectors manufactured by Hamamatsu (among others) that provide single photon sensitivity and high timing accuracy (about 100 ps). Coupled to innovative mutli-channel ASICs that provide high accuracy charge and time measurements, they permit new detectors (TOF, calorimeters) in High Energy Physics, Nuclear experiments or societal applications (e.g. PET-MRI medical applications or vulcanology).

French members :
C. de la Taille, S. Callier, G. Martin-Chassard, L. Raux, N. Seguin-Moreau

Line: 26 to 27

Japanese members :
I. Nakamura, K. Hanagaki, A. Nagaya, W. Ootani, T. Takeshita, M. Yokoyama, K. Yoshimura

Changed:

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<

References

>
>

References :
[1] K. Miwa et al., "Test experiment for a performance evaluation of a scattered proton detector system for the Sigma-p scattering experiment E40", KEK/J-PARC-PAC 2013-4, http://j-parc.jp/researcher/Hadron/en/pac_1309/pdf/T54_2013-4.pdf [2] J. Fleury et al., "Petiroc and Citiroc: front-end ASICs for SiPM read-out and ToF applications", JINST 9 (2014) C01049

website

Revision 52014-09-23 - Main.GenevieveGilbert

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META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : *Toward the final design of a TPC for the ILD detector

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D_RD_11 : Prototype development of a positron emission tomography detector using liquid Xenon

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Summary

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Summary :
This is a proposal to start a new series of R&D on liquid xenon as detectors of the gamma ray applied to PET (Positron Emission Tomography) technology by the SUBATECH Laboratory (http://www-subatech.in2p3.fr/en/research/nuclear-and-health/xenon/about), Ecole des Mines de Nantes, and KEK (http://rd.kek.jp/project/LXe/index_e.html). Recently SUBATECH group has established a technology to measure a small ionization signal in liquid xenon by using a dedicated electronics coupled to readout pads though ceramic feedthough connectors. In parallel in Japan new photo sensors for the use in liquid xenon temperature to measure its scintillation light are being developed with finer segmentations; Avalance Photo diode (APD), SiPM, and multi-anode photomultipliers. These new technologies are supported by developments made in a series of R&D ever performed by the SUBATCH-KEK collaboration. The proposal is addressing concrete tests on prototypes located both at KEK and Suabtech; they will focus on the understanding of liquid xenon properties for medical imaging. In parallel, the groups will prepare the next experiment XEMIS2 which will be installed in 2015 at the Nantes hospital to image small animals

French members :
D. Thers, J_P. Cussonneau, J. Masbou, E. Morteau, L. Scotto-Lavina

Revision 42014-09-04 - Main.GenevieveGilbert

 			 META TOPICPARENT 
			 name="FJPPLprojects" 
		
D_RD_09 : *Toward the final design of a TPC for the ILD detector 

Summary

French members :
- META TOPICPARENT
+ name="FJPPLprojects"
-<
<
+P. Colas 

D. Attié

D. Bhattacharya

A. Giganon

I. Giomataris
->
>
+P. Colas, D. Attié, D. Bhattacharya, A. Giganon, I. Giomataris
 Japanese members :
-<
<
+K. Fujii 

T. Fusayasu

K. Kato

M. Kobayashi

T. Mastuda

O. Nitoh

A. Sugiyama

T. Watanabe
->
>
+K. Fujii, T. Fusayasu, K. Kato, M. Kobayashi, T. Mastuda, O. Nitoh, A. Sugiyama, T. Watanabe
 References
 Summary

French members :
-<
<
+C. de la Taille 

S. Callier

G. Martin-Chassard

L. Raux

N. Seguin-Moreau
->
>
+C. de la Taille, S. Callier, G. Martin-Chassard, L. Raux, N. Seguin-Moreau
 Japanese members :
-<
<
+I. Nakamura 

K. Hanagaki

A. Nagaya

W. Ootani

T. Takeshita

M. Yokoyama

K. Yoshimura
->
>
+I. Nakamura, K. Hanagaki, A. Nagaya, W. Ootani, T. Takeshita, M. Yokoyama, K. Yoshimura
 References
 Summary

French members :
-<
<
+D. Thers 

J-P. Cussonneau

J. Masbou

E. Morteau

L. Scotto-Lavina
->
>
+D. Thers, J_P. Cussonneau, J. Masbou, E. Morteau, L. Scotto-Lavina
 Japanese members :
-<
<
+S. Mihara 

K. Kasami

S. Tanaka

T. Tauchi

T. Saeki
->
>
+S. Mihara, K. Kasami, S. Tanaka, T. Tauchi, T. Saeki
 References

Revision 32014-08-05 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

D_RD_09 : *Toward the final design of a TPC for the ILD detector

Revision 22014-08-04 - Main.GenevieveGilbert

 			 META TOPICPARENT 
			 name="FJPPLprojects"
- META TOPICPARENT
+ name="FJPPLprojects"
-<
<
+D_RD_07 : MPPC readout ASIC
->
>
+D_RD_09 : *Toward the final design of a TPC for the ILD detector
 Summary
-<
<
+French member :

N. Seguin-Moreau

Japanese member :

I. Nakamura
->
>
+French members : 

P. Colas 

D. Attié

D. Bhattacharya

A. Giganon

I. Giomataris

Japanese members :

K. Fujii 

T. Fusayasu

K. Kato

M. Kobayashi

T. Mastuda

O. Nitoh

A. Sugiyama

T. Watanabe
 References
 -------------------------------
-<
<
+D_RD_02 : Construction and tests of a MPGD TPC endplate prototype for the Linear Collider
->
>
+D_RD_10 : R&D for fast timing photon detector system
 Summary
-<
<
+French member : 

P. Colas
->
>
+French members : 

C. de la Taille 

S. Callier

G. Martin-Chassard

L. Raux

N. Seguin-Moreau

Japanese members :

I. Nakamura 

K. Hanagaki

A. Nagaya

W. Ootani

T. Takeshita

M. Yokoyama

K. Yoshimura

References

website

 
------------------------------- 

D_RD_11 : Prototype development of a positron emission tomography detector using liquid Xenon 

Summary
-<
<
+Japanese member :

K. Fujii
->
>
+French members : 

D. Thers 

J-P. Cussonneau

J. Masbou

E. Morteau

L. Scotto-Lavina

Japanese members :

S. Mihara 

K. Kasami

S. Tanaka

T. Tauchi

T. Saeki
 References

Revision 12014-08-04 - Main.GenevieveGilbert

Line: 1 to 1

Added:

>
>

META TOPICPARENT	name="FJPPLprojects"

D_RD_07 : MPPC readout ASIC

Summary

French member :
N. Seguin-Moreau

Japanese member :
I. Nakamura

References

website

-------------------------------

D_RD_02 : Construction and tests of a MPGD TPC endplate prototype for the Linear Collider

Summary

French member :
P. Colas

Japanese member :
K. Fujii

References

website

-------------------------------

Difference: FJPPLDetectorRD (1 vs. 26)

Revision 262020-09-18 - Main.IsabelleRippBaudot

Revision 252020-04-03 - Main.IsabelleRippBaudot

Revision 242018-10-02 - Main.IsabelleRippBaudot

Revision 232018-09-09 - Main.IsabelleRippBaudot

Revision 222017-09-05 - Main.PhilipBambade

Revision 212017-09-04 - Main.PhilipBambade

Revision 202017-09-04 - Main.GenevieveGilbert

Revision 192017-07-06 - Main.GenevieveGilbert

Revision 182017-06-29 - Main.GenevieveGilbert

Revision 172016-08-02 - Main.GenevieveGilbert

Revision 162015-09-14 - Main.PhilipBambade

Revision 152015-09-11 - Main.PhilipBambade

Revision 142015-09-11 - Main.PhilipBambade

Revision 132015-07-17 - Main.PhilipBambade

Revision 122015-07-16 - Main.PhilipBambade

Revision 112015-07-15 - Main.PhilipBambade

Revision 102015-06-23 - Main.GenevieveGilbert

Revision 92014-12-05 - Main.PhilipBambade

Revision 82014-11-30 - Main.PhilipBambade

Revision 72014-11-29 - Main.PhilipBambade

Revision 62014-10-01 - Main.GenevieveGilbert

Revision 52014-09-23 - Main.GenevieveGilbert

Revision 42014-09-04 - Main.GenevieveGilbert

Revision 32014-08-05 - Main.PhilipBambade

Revision 22014-08-04 - Main.GenevieveGilbert

Revision 12014-08-04 - Main.GenevieveGilbert