Difference: FJPPLHighEnergyPhysics (1 vs. 20)

Revision 202020-09-18 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

HEP_04: Cosmological tests of Fundamental Physics

Line: 140 to 140

HEP_12: Stronger together to search for new heavy resonances in ATLAS

Summary:

Added:

>
>

The search for new heavy particles is an important part of the physics program at the Large Hadron Collider (LHC) and has been the focus of an intense effort to uncover new physics beyond the Standard Model [1, 2, 3, 4] in a broad range of final states. In the cases where new heavy resonances would result from extensions of the SM gauge group, it is possible to systematically classify them and parameterize in terms of mass and couplings. Of particular interest are the singlet and the isospin triplet spin-1 resonances. For example, a generic model with isospin triplets formed by a new neutral Z boson (Z') and a pair of W bosons (W’), Heavy Vector Triplet (HVT) model, in case of flavour universality has four parameters, e.g. a mass and couplings to leptons (gl), quarks (gq) and Higgs and vector bosons (gH). Individual analyses only constrain a subset of these coupling parameters or have a limited sensitivity to them, but combination of channels leads to much stronger simultaneous constraints, exploiting their complementarity.

The ATLAS experiment has taken data for proton-proton collisions with √s = 13 TeV since 2015 (Run 2) and collected a total amount of data of 149 fb-1 until the end of Run 2 in December 2018. The ATLAS Collaboration published the first result of a combination searches for new particles decaying to pairs of W or Z bosons (VV, where V represents either a W or Z boson), or to a W/Z boson with a Higgs boson (VH) and pairs for light leptons (ll/lv, where l=electrons or muons and v represents a neutrino) in 2018 by using a part of data taken in Run 2 that corresponds to an integrated luminosity of 36 fb-1 [5]. Our project aims the combination analysis with the full Run 2 dataset, where the VV/VH/ll/lv combination will be extended to other channels (di-jets, tt̄, tb̄, bb̄, ττ, τν, etc.), placing even stronger constraints on different new physics scenarios. The addition of the 3rd generation final states is particularly interesting; it will bring much stronger constraints on a new heavy neutral gauge boson which couples preferentially to the second and third generation fermions [6]. Such constraints will have direct impact on the scenarios where the flavor anomalies observed in LHCb and B-factories in the semi-leptonic B-meson decays are explained by the new gauge boson.

French members:
T. Berger Hryn’ova, S. Calvet, R. Camacho Toro, J. Donini

Line: 148 to 151

Y. Takubo, K. Terashi, K. Nagano

References:

Added:

>
>

[1] Randall et al. Phys.Rev.Lett. 83 (1999) 3370-3373 hep-ph/9905221
[2] Branco et al. Phys.Rept. 516 (2012) 1-102 arXiv:1106.0034 [hep-ph]
[3] Contino et al. JHEP 1110 (2011) 081 arXiv:1109.1570 [hep-ph]
[4] Pati et al. Phys.Rev. D10 (1974) 275-289, Erratum: Phys.Rev. D11 (1975) 703-703; Georgi et al. Phys.Rev.Lett. 32 (1974) 438-444; Fritzsch et al. Annals Phys. 93 (1975) 193-266
[5] ATLAS Collaboration, Phys. Rev. D 98, 052008 (2018)
[6] Faroughy et. al., Phys. Lett. B764 (2017) 126-134; Greljo & Marzocca Eur. Phys. J. C77 (2017) , 548; Di Luzio et al. JHEP 1811 (2018) 081

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

Revision 192020-09-17 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

HEP_04: Cosmological tests of Fundamental Physics

Line: 108 to 108

HEP_10: Strong dynamics beyond the Standard Model at LHC and Future Colliders

Summary:

Added:

>
>

This project considers models that arise from a new strong interaction that can be defined in terms of a simple, confining, gauge group and a number of fundamental fermions which form bound states allowing a more fundamental explanation of weak interactions and of the Higgs sector of the Standard Model (SM). In particular we use effective field theory description of the models based on the properties of the higher-energy completion in terms of the fundamental fermions, including the masses and couplings of the light pseudo-Goldstone bosons (pNGB). Vector and fermionic composite states are also typically present. We study the implications for the LHC at its High Luminosity and High Energy extensions as well as at the ILC. Apart from the focus on discovering new particles associated to this new strong sector, small deviations in the properties of SM particles is also expected. These models, named in general “Composite Higgs models”, are analogous to QCD, and typically require numerical tools to compute masses and couplings of the bound states. Non-minimal realizations of this idea are partially discussed in the recent literature but their phenomenology at present and future colliders is not fully studied. In particular these models contain extra particle bound states, both bosons of spin 0 and 1 and fermions. These particles may be or not protected by symmetries which implies very different phenomenological expectations. The lattice simulations are quite time consuming and expensive, therefore it will not be possible to fully explore in this way all these models. Alternative methods, based on the previous collaborations of the French and Japanese group are used to explore this subject.

French members:
* A. Deandrea*, G. Cacciapaglia, C. Cot, S. Vatani

Line: 115 to 116

Japanese members:
M. Hashimoto, Y. Okada, D. Harada

Changed:

<
<

References:

>
>

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

Revision 182020-09-17 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

Added:

>
>

HEP_04: Cosmological tests of Fundamental Physics

Summary:
Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics). The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which conventional electroweak symmetry and QCD breaking happen as crossovers, according to the SM. Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Further consequences of this scenario, such as signatures of a late thermal inflationary phase and implications for dark matter, are being investigated. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. In [3], we studied the impact of accretion of primordial stellar mass black holes on CMB anisotropies, finding stringent bounds. We are currently extending this study to massive and supermassive primordial black holes, which requires a careful treatment of the accretion in presence of a “dark matter” halo surrounding the black hole.

French members:
V. Poulin, P. Serpico, J. Lavalle, G. Facchinetti, G. Franco Abellan, R. Murgia

Japanese members:
N. Hiroshima, K. Kohri, S. Iso, T. Sekiguchi, H. Matsui, T. Igata

References:
[1] S. Iso, K. Kohri and K. Shimada, "Dynamical fine-tuning of initial conditions for small field inflation," Phys. Rev. D 93, 084009 (2016) [arXiv:1511.05923]
[2] S. Iso, P. D. Serpico and K. Shimada, "QCD-Electroweak first order phase transition in supercooled universe,'' Phys. Rev. Lett. 119, 141301 (2017) [arXiv:1704.04955]
[3] V. Poulin, P. D. Serpico, F. Calore, S. Clesse and K. Kohri, “CMB bounds on disk-accreting massive primordial black holes,'' Phys. Rev. D 96, 083524 (2017) [arXiv:1707.04206]

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

HEP_07: SiW ECAL

Summary:

Line: 126 to 163

J. Tian, D. Jeans

References :

Deleted:

<
<

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

HEP_14: Cosmological tests of Fundamental Physics

Summary:

Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics). The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which conventional electroweak symmetry and QCD breaking happen as crossovers, according to the SM. Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Further consequences of this scenario, such as signatures of a late thermal inflationary phase and implications for dark matter, are being investigated. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. In [3], we studied the impact of accretion of primordial stellar mass black holes on CMB anisotropies, finding stringent bounds. We are currently extending this study to massive and supermassive primordial black holes, which requires a careful treatment of the accretion in presence of a “dark matter” halo surrounding the black hole.

French members:
V. Poulin, P. Serpico, J. Lavalle, G. Facchinetti, G. Franco Abellan, R. Murgia

Japanese members:
N. Hiroshima, K. Kohri, S. Iso, T. Sekiguchi, H. Matsui, T. Igata

Revision 172020-04-03 - Main.IsabelleRippBaudot

 			 META TOPICPARENT 
			 name="FJPPLprojects"
- META TOPICPARENT
+ name="FJPPLprojects"
-<
<
+HEP_01 : ILC Top
->
>
+HEP_07: SiW ECAL 

Summary:

A compact and highly granular electromagnetic calorimeter is one of the key requirements for PFA high precision jet reconstruction, and for full realization of ILC's physics potential.
The aim of this project is R&D of a silicon-tungsten calorimeter.
The main aim is to further develop the "technical prototype", in which different technical approaches to detector construction are tested and compared.
Aspects to be investigated include improvements in electrical design, thinner front-end boards, and silicon sensors of varying thickness.
Several beam tests of this prototype are foreseen during the year.
An important milestone is to develop a "long slab", chaining several unitary elements to make a large detector element, as will be needed in a full detector.
Physics analyses which make significant use of the ECAL will be further studied, with an emphasis on the reconstruction and use of tau lepton decays to probe for new physics.
An important aspect will be to quantify how different ECAL design choices (which may, for example, involve significantly different costs) impact such analyses.

French members:

V. Boudry, F. Jimnez, J. Kunath, R. Poeschl, A. Irles

Japanese members: 

D. Jeans, T. Suehara, K.Kawagoe, T. Yoshioka

References:

[1] T.H.Tran, "ILD SiW ECAL and sDHCAL dimension-performance optimisation", report at LCWS'13, arXiv:1404.3173 [physics.ins-det]

[2] Ch.Kozakai et al., "Robustness of a SiECAL used in Particle Flow Reconstruction", report at LCWS'13, arXiv:1404.0124 [physics.ins-det]

[3] T.Tomita et al., "A study of silicon sensor for ILD ECAL", report at LCWS'13, arXiv:1403.7953 [physics.ins-det]

[4] Editors: T.Behnke et al., "The International Linear Collider Technical Design Report - Volume 4: Detectors", arXiv:1306.6329 [physics.ins-det]

website:

 https://twiki.cern.ch/twiki/bin/view/CALICE/SiWEcal

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


HEP_09: ILC Heavy Flavours
 Summary :

The ILC Physics Case can be summarized in two main domains:
 using Leading Order expressions [4] should provide top-coupling measurements with an accuracy similar to the one attained using the semi-leptonic events, but with different systematical effects.

French members :
-<
<
+F. Le Diberder, S. Bilokin, P. Colas, E. Kou, R. Poeschl, F. Richard, V. Shavy, M. Titov, B. Tuchming
->
>
+R. Poeschl, A. Irles, E. Kou, F. Le Diberder, F. Richard, P. Colas, M. Titov, M. Winter
 Japanese members :
-<
<
+K. Fujii, A. Ishikawa, D. Jeans, Y. Kiyo, M. Kurata, Y. Kurihara, T. Suehara, Y. Sato, Y. Sumino, T. Tanabe, H Yamamoto
->
>
+K. Fujii, Y. Hosotani, D. Jeans, Y. Kiyo, M. Kurata, Y. Kurihara, T. Suehara, Y. Sumino, T. Tanabe, J. Tian, H Yamamoto, A. Ishikawa
 References :

[1] M.S. Amjad et al. : arXiv:1307.8102 (2013)
 [3] H.J. Behrends et al., CELLO Collab. Z. Phys. C43 (1989)  

[4] G. Kane, G. Ladinsky and C.P. Yuan, Phys. Rev. D 45 (1992)
-<
<
 ------------------------------
-<
<
+HEP_04 : Cosmological tests of Fundamental Physics
-<
<
+Summary :
->
>
+HEP_10: Strong dynamics beyond the Standard Model at LHC and Future Colliders
-<
<
+Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics).  The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which  conventional  electroweak symmetry and QCD breaking happen as crossovers, according to the SM.  Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Further consequences of this scenario, such as signatures of a late thermal inflationary phase and implications for dark matter, are being investigated. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. In [3], we studied the impact of accretion of primordial stellar mass black holes on  CMB anisotropies, finding stringent bounds. We are currently extending this study to massive and supermassive primordial black holes, which requires a careful treatment of the accretion in presence of a “dark matter” halo surrounding the black hole.
->
>
+Summary:
 French members :
-<
<
+P. Serpico, 
G. Bélanger, 
F. Boudjema
->
>
+* A. Deandrea*, G. Cacciapaglia, C. Cot, S. Vatani
 Japanese members :
-<
<
+K. Kohri,
T. Hasegawa,
N. Hiroshima,
S. Iso,
T. Mori
->
>
+M. Hashimoto, Y. Okada, D. Harada
 References :
-<
<
+[1] S. Iso, K. Kohri and K. Shimada,
"Dynamical fine-tuning of initial conditions for small field inflation,"
  Phys. Rev. D  93, 084009 (2016)
  [arXiv:1511.05923]

[2] S. Iso, P. D. Serpico and K. Shimada, "QCD-Electroweak first order phase transition in supercooled universe,''  
 Phys. Rev. Lett. 119, 141301 (2017)  [arXiv:1704.04955] 

[3]  V. Poulin, P. D. Serpico, F. Calore, S. Clesse and K. Kohri,
“CMB bounds on disk-accreting massive primordial black holes,''
  Phys. Rev. D  96,  083524 (2017)
  [arXiv:1707.04206]
 ------------------------------
-<
<
+HEP_06 : Charged lepton flavour violation-searching for indirect signals of new physics
->
>
+HEP_11: Looking for dark-sector long-lived particles with ATLAS
 Summary :
-<
<
+ New particles and interactions beyond the Standard Model (SM) of particle physics are required to explain neutrino masses and mixing angles. The search for traces of this new physics (NP) is pursued on many fronts. One possibility is to look directly for the new particles implicated in neutrino mass generation, for instance at the LHC. A complementary approach seeks indirectly new interactions among rare processes, such as charged lepton flavour violation (CLFV). CLFV transitions can be induced by the observed massive neutrinos in the SM, at unobservable rates suppressed by 10 e-48. A detectable rate would point to the existence of new heavy particles, as may arise in models that generate neutrino masses, or that address other puzzles of the SM such as the hierarchy problem. Observations of CLFV are therefore crucial to identifying the NP of the lepton sector, providing information complementary to direct searches. The experimental sensitivity to a wide variety of CLFV processes is systematically improving. Current bounds on branching ratios of the muon to electron flavour changing processes are currently of order of 10 e-13. Future experimental sensitivities should improve by several orders of magnitude, in particular, the COMET and Mu2e experiments which aim to reach a sensitivity to μ-e conversion on nuclei of ∼ 10 e-16. Given such rapid experimental progress in the future, our main area of research is to study in details physics opportunities for the CLFV processes, and explore new opportunities, by the joint collaboration of theorists and experimentalists between Japan and France. We have already made the first research achievement, on the study of spin-depended muon to electron conversion, which has been published in a scientific journal of Physics Letters in 2017 [1]. This physics case has never previously been considered. We will explore further unique physics cases in our research collaboration. To achieve this goal, we are planning to organize informal meetings and workshops between French and Japanese.
 French members :
-<
<
+S. Davidson,
A. Saporta,
A. M.Teixeira
->
>
+M.-H. Genest, N. Lalloue, D. Portillo Quintero

Japanese members: 


References:

K. Hara, S. Wada, K. Nakamura, F. Ukegawa

------------------------------
->
>
+HEP_12: Stronger together to search for new heavy resonances in ATLAS 

Summary:


French members:

T. Berger Hryn’ova, S. Calvet, R. Camacho Toro, J. Donini
 Japanese members :
-<
<
+Y. Kuno,
J. Sato,
K. Tobe,
M. Yamanaka,
S. Kanemura
->
>
+Y. Takubo, K. Terashi, K. Nagano
 References :
-<
<
+[1] V. Cirigliano, S. Davidson and Y. Kuno, “Spin-dependent μ→e conversion“,  Phys. Lett. B771 (2017) 242-246


[2] S.  Davidson, Y. Kuno, A. Saporta, “Spin-dependent μ→e conversion on light nuclei”, Eur.Phys.J. C78 (2018) 109
->
>
 ------------------------------
-<
<
+HEP_07 : SiW ECAL
->
>
+HEP_13: Higgs physics at the ILC
 Summary :
-<
<
+A compact and highly granular electromagnetic calorimeter is one of the key requirements for PFA high precision jet reconstruction, and for full realization of ILC's physics potential.
The aim of this project is R&D of a silicon-tungsten calorimeter.
The main aim is to further develop the "technical prototype", in which different technical approaches to detector construction are tested and compared.
Aspects to be investigated include improvements in electrical design, thinner front-end boards, and silicon sensors of varying thickness.
Several beam tests of this prototype are foreseen during the year.
An important milestone is to develop a "long slab", chaining several unitary elements to make a large detector element, as will be needed in a full detector.
Physics analyses which make significant use of the ECAL will be further studied, with an emphasis on the reconstruction and use of tau lepton decays to probe for new physics.
An important aspect will be to quantify how different ECAL design choices (which may, for example, involve significantly different costs) impact such analyses.
 French members :
-<
<
+V. Boudry, V. Balagura, J-C. Brient, R. Poeschl, F. Magniette
->
>
+J.-C. Brient, J. Knuth
 Japanese members :
-<
<
+D. Jeans, T. Suehara, K.Kawagoe, T. Yoshioka
->
>
+J. Tian, D. Jeans
 References :
-<
<
+[1] T.H.Tran, "ILD SiW ECAL and sDHCAL dimension-performance optimisation", report at LCWS'13, arXiv:1404.3173 [physics.ins-det]

[2] Ch.Kozakai et al., "Robustness of a SiECAL used in Particle Flow Reconstruction", report at LCWS'13, arXiv:1404.0124 [physics.ins-det]

[3] T.Tomita et al., "A study of silicon sensor for ILD ECAL", report at LCWS'13, arXiv:1403.7953 [physics.ins-det]

[4] Editors: T.Behnke et al., "The International Linear Collider Technical Design Report - Volume 4: Detectors", arXiv:1306.6329 [physics.ins-det]
-<
<
+website :

 https://twiki.cern.ch/twiki/bin/view/CALICE/SiWEcal
 \ No newline at end of file
->
>
+------------------------------ 

HEP_14: Cosmological tests of Fundamental Physics 

Summary:


Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics).  The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which  conventional  electroweak symmetry and QCD breaking happen as crossovers, according to the SM.  Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Further consequences of this scenario, such as signatures of a late thermal inflationary phase and implications for dark matter, are being investigated. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. In [3], we studied the impact of accretion of primordial stellar mass black holes on  CMB anisotropies, finding stringent bounds. We are currently extending this study to massive and supermassive primordial black holes, which requires a careful treatment of the accretion in presence of a “dark matter” halo surrounding the black hole. 

French members:

V. Poulin, 
P. Serpico,
J. Lavalle,
G. Facchinetti, 
G. Franco Abellan, 
R. Murgia


Japanese members: 

N. Hiroshima,
K. Kohri,
S. Iso,
T. Sekiguchi,
H. Matsui,
T. Igata

References:

[1] S. Iso, K. Kohri and K. Shimada,
"Dynamical fine-tuning of initial conditions for small field inflation,"
  Phys. Rev. D  93, 084009 (2016)
  [arXiv:1511.05923]

[2] S. Iso, P. D. Serpico and K. Shimada, "QCD-Electroweak first order phase transition in supercooled universe,''  
 Phys. Rev. Lett. 119, 141301 (2017)  [arXiv:1704.04955] 

[3]  V. Poulin, P. D. Serpico, F. Calore, S. Clesse and K. Kohri,
“CMB bounds on disk-accreting massive primordial black holes,''
  Phys. Rev. D  96,  083524 (2017)
  [arXiv:1707.04206]

Revision 162018-09-21 - Main.IsabelleRippBaudot

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

HEP_01 : ILC Top

Line: 101 to 101

HEP_07 : SiW ECAL

Summary :

Changed:

<
<

A compact and highly granular electromagnetic calorimeter at ILC is one of the key requirements for PFA high precision jet reconstruction and realization of ILC physics potential. R&D of silicon-tungsten calorimeter is the goal of this project. We plan to finalize the optimization of the ECAL geometry (dimensions and number of layers), to build and to test a detector (so-called "active sensor unit", or ASU) with 1024 channels per PCB serving 4 silicon sensors with 16x16 pixels, improve the DAQ software and to work on integration of several ASUs into one ILC full-scale detector. In parallel, we plan to test various designs of silicon sensors and their radiation hardness.

>
>

A compact and highly granular electromagnetic calorimeter is one of the key requirements for PFA high precision jet reconstruction, and for full realization of ILC's physics potential. The aim of this project is R&D of a silicon-tungsten calorimeter. The main aim is to further develop the "technical prototype", in which different technical approaches to detector construction are tested and compared. Aspects to be investigated include improvements in electrical design, thinner front-end boards, and silicon sensors of varying thickness. Several beam tests of this prototype are foreseen during the year. An important milestone is to develop a "long slab", chaining several unitary elements to make a large detector element, as will be needed in a full detector. Physics analyses which make significant use of the ECAL will be further studied, with an emphasis on the reconstruction and use of tau lepton decays to probe for new physics. An important aspect will be to quantify how different ECAL design choices (which may, for example, involve significantly different costs) impact such analyses.

French members :

Changed:

<
<

V. Boudry, V. Balagura, J-C. Brient, R. Cornat, A. Irles R. Poeschl, K. Shpak, D. Zerwas

>
>

V. Boudry, V. Balagura, J-C. Brient, R. Poeschl, F. Magniette

Japanese members :

Changed:

<
<

D. Jeans, Y. Kamiya, K.Kawagoe, S. Komamiya, H. Nakanishi, T. Suehara, H. Yamashiro

>
>

D. Jeans, T. Suehara, K.Kawagoe, T. Yoshioka

References :
[1] T.H.Tran, "ILD SiW ECAL and sDHCAL dimension-performance optimisation", report at LCWS'13, arXiv:1404.3173 [physics.ins-det]

Revision 152018-09-06 - Main.IsabelleRippBaudot

 			 META TOPICPARENT 
			 name="FJPPLprojects" 
		
HEP_01 : ILC Top
- META TOPICPARENT
+ name="FJPPLprojects"
 Summary :
-<
<
+Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics).  The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which  conventional  electroweak symmetry and QCD breaking happen as crossovers, according to the SM.  Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. This is another sector we are working on (notably k. Kohri with P. Serpico and V. Poulin) and some results are expected in the current year
->
>
+Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics).  The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which  conventional  electroweak symmetry and QCD breaking happen as crossovers, according to the SM.  Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Further consequences of this scenario, such as signatures of a late thermal inflationary phase and implications for dark matter, are being investigated. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. In [3], we studied the impact of accretion of primordial stellar mass black holes on  CMB anisotropies, finding stringent bounds. We are currently extending this study to massive and supermassive primordial black holes, which requires a careful treatment of the accretion in presence of a “dark matter” halo surrounding the black hole.
 French members :

P. Serpico, 
G. Bélanger,
-<
<
+F. Boudjema,
K. Shimada
->
>
+F. Boudjema
 Japanese members : 

K. Kohri,
-<
<
+S. Iso
->
>
+T. Hasegawa,
N. Hiroshima,
S. Iso,
T. Mori
 References :

[1] S. Iso, K. Kohri and K. Shimada,
"Dynamical fine-tuning of initial conditions for small field inflation,"
  Phys. Rev. D  93, 084009 (2016)
  [arXiv:1511.05923]
-<
<
+[2] S. Iso, P. D. Serpico and K. Shimada, "QCD-Electroweak first order phase transition in supercooled universe,''  arXiv:1704.04955
->
>
+[2] S. Iso, P. D. Serpico and K. Shimada, "QCD-Electroweak first order phase transition in supercooled universe,''  
 Phys. Rev. Lett. 119, 141301 (2017)  [arXiv:1704.04955] 

[3]  V. Poulin, P. D. Serpico, F. Calore, S. Clesse and K. Kohri,
“CMB bounds on disk-accreting massive primordial black holes,''
  Phys. Rev. D  96,  083524 (2017)
  [arXiv:1707.04206]
 ------------------------------

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French members :
S. Davidson,

Added:

>
>

A. Saporta,

A. M.Teixeira

Line: 79 to 80

Y. Kuno, J. Sato, K. Tobe,

Added:

>
>

M. Yamanaka,

S. Kanemura

References :

Changed:

<
<

[1] V. Cirigliano, S. Davidson and Y. Kuno, “Spin-dependent μ-e conversion“ Phys. Lett. B771 (2017) 242-246

>
>

[1] V. Cirigliano, S. Davidson and Y. Kuno, “Spin-dependent μ→e conversion“, Phys. Lett. B771 (2017) 242-246
[2] S. Davidson, Y. Kuno, A. Saporta, “Spin-dependent μ→e conversion on light nuclei”, Eur.Phys.J. C78 (2018) 109

Deleted:

<
<

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

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META TOPICPARENT	name="FJPPLprojects"

HEP_01 : ILC Top

Line: 38 to 38

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

Deleted:

<
<

HEP_02 : ILC ECAL

Summary :
A compact and highly granular electromagnetic calorimeter at ILC is one of the key requirements for PFA high precision jet reconstruction and realization of ILC physics potential. R&D of silicon-tungsten calorimeter is the goal of this project. We plan to finalize the optimization of the ECAL geometry (dimensions and number of layers), to build and to test a detector (so-called "active sensor unit", or ASU) with 1024 channels per PCB serving 4 silicon sensors with 16x16 pixels, improve the DAQ software and to work on integration of several ASUs into one ILC full-scale detector. In parallel, we plan to test various designs of silicon sensors and their radiation hardness.

French members :
V. Boudry, V. Balagura, J-C. Brient, R. Cornat, A. Irles R. Poeschl, K. Shpak, D. Zerwas

Japanese members :
D. Jeans, Y. Kamiya, K.Kawagoe, S. Komamiya, H. Nakanishi, T. Suehara, H. Yamashiro

References :
[1] T.H.Tran, "ILD SiW ECAL and sDHCAL dimension-performance optimisation", report at LCWS'13, arXiv:1404.3173 [physics.ins-det]
[2] Ch.Kozakai et al., "Robustness of a SiECAL used in Particle Flow Reconstruction", report at LCWS'13, arXiv:1404.0124 [physics.ins-det]
[3] T.Tomita et al., "A study of silicon sensor for ILD ECAL", report at LCWS'13, arXiv:1403.7953 [physics.ins-det]
[4] Editors: T.Behnke et al., "The International Linear Collider Technical Design Report - Volume 4: Detectors", arXiv:1306.6329 [physics.ins-det]

website :
https://twiki.cern.ch/twiki/bin/view/CALICE/SiWEcal

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

HEP_04 : Cosmological tests of Fundamental Physics

Summary :

Line: 122 to 84

References :
[1] V. Cirigliano, S. Davidson and Y. Kuno, “Spin-dependent μ-e conversion“ Phys. Lett. B771 (2017) 242-246

Added:

>
>

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

HEP_07 : SiW ECAL

French members :
V. Boudry, V. Balagura, J-C. Brient, R. Cornat, A. Irles R. Poeschl, K. Shpak, D. Zerwas

Japanese members :
D. Jeans, Y. Kamiya, K.Kawagoe, S. Komamiya, H. Nakanishi, T. Suehara, H. Yamashiro

website :
https://twiki.cern.ch/twiki/bin/view/CALICE/SiWEcal

\ No newline at end of file

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HEP_01 : ILC Top

Line: 75 to 75

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

Deleted:

<
<

HEP_03 : Composite models and their phenomenology at the LHC

Summary :
An intriguing possibility in particle theory models is that the Higgs boson may be at least partially a composite state of an underlying strong dynamics, which may also allow for the existence of other states, among which Dark Matter and new scalar, fermion and vector particles. The Yukawa structure of the Standard Model of particle physics may also be dynamically generated, so that some strong dynamics at high-energy scale may be visible as deviations in the flavour measurements or as the appearance of new particles in the physical spectrum [1,2]. This possibility can be studied in detail at the Large Hadron Collider at CERN and by other collider or high precision lower energy experiments. Apart from focussing on the more theoretical construction of the corresponding models, we also investigate in detail the bounds and discovery potential of new fundamental particles present in these models, such as new heavy vector-like quarks and other new vector [3] and scalar particles [4].

French members :
P. Serpico, G. Belanger, F. Boudjema, K. Shimada

Japanese members :
K. Kohri, S. Iso

References :
[1] G.Cacciapaglia, A.Deandrea, L.Panizzi, N.Gaur, D.Harada and Y.Okada, “Heavy Vector-like Top Partners at the LHC and flavour constraints”, JHEP 1203 (2012) 070 [arXiv:1108.6329]
[2] G.Cacciapaglia, A.Deandrea, N.Gaur, D.Harada, Y.Okada and L.Panizzi, “Interplay of vector-like top partner multiplets in a realistic mixing set-up,” arXiv:1502.00370 [hep-ph]
[3] M.Hashimoto, “Composite Z′,” Phys. Rev. D 90 (2014) , 096004, [arXiv:1409.4954]
[4] G.Cacciapaglia, A.Deandrea and M.Hashimoto, "A scalar hint from the diboson excess?,'' arXiv:1507.03098 [hep-ph]

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

HEP_04 : Cosmological tests of Fundamental Physics

Line: 131 to 106

HEP_06 : Charged lepton flavour violation-searching for indirect signals of new physics

Summary :

Changed:

<
<

New particles and interactions beyond the Standard Model (SM) of particle physics are required to explain neutrino masses and mixing angles. The search for traces of this new physics (NP) is pursued on many fronts. One possibility is to look directly for the new particles implicated in neutrino mass generation, for instance at the LHC. A complementary approach seeks indirectly new interactions among rare processes, such as charged lepton flavour violation (CLFV). CLFV transitions can be induced by the observed massive neutrinos in the SM, at unobservable rates suppressed by 10-48. A detectable rate would point to the existence of new heavy particles, as may arise in models that generate neutrino masses, or that address other puzzles of the SM such as the hierarchy problem. Observations of CLFV are therefore crucial to identifying the NP of the lepton sector, providing information complementary to direct searches. The experimental sensitivity to a wide variety of CLFV processes is systematically improving. Current bounds on branching ratios of the muon to electron flavour changing processes are currently of order of 10−13. Future experimental sensitivities should improve by several orders of magnitude, in particular, the COMET and Mu2e experiments which aim to reach a sensitivity to μ-e conversion on nuclei of ∼ 10−16. Given such rapid experimental progress in the future, our main area of research is to study in details physics opportunities for the CLFV processes, and explore new opportunities, by the joint collaboration of theorists and experimentalists between Japan and France. We have already made the first research achievement, on the study of spin-depended muon to electron conversion, which has been published in a scientific journal of Physics Letters in 2017 [1]. This physics case has never previously considered. We will explore further unique physics cases in our research collaboration. To make this goal, we are planning to organize informal meetings and workshops between French and Japanese.

>
>

New particles and interactions beyond the Standard Model (SM) of particle physics are required to explain neutrino masses and mixing angles. The search for traces of this new physics (NP) is pursued on many fronts. One possibility is to look directly for the new particles implicated in neutrino mass generation, for instance at the LHC. A complementary approach seeks indirectly new interactions among rare processes, such as charged lepton flavour violation (CLFV). CLFV transitions can be induced by the observed massive neutrinos in the SM, at unobservable rates suppressed by 10 e-48. A detectable rate would point to the existence of new heavy particles, as may arise in models that generate neutrino masses, or that address other puzzles of the SM such as the hierarchy problem. Observations of CLFV are therefore crucial to identifying the NP of the lepton sector, providing information complementary to direct searches. The experimental sensitivity to a wide variety of CLFV processes is systematically improving. Current bounds on branching ratios of the muon to electron flavour changing processes are currently of order of 10 e-13. Future experimental sensitivities should improve by several orders of magnitude, in particular, the COMET and Mu2e experiments which aim to reach a sensitivity to μ-e conversion on nuclei of ∼ 10 e-16. Given such rapid experimental progress in the future, our main area of research is to study in details physics opportunities for the CLFV processes, and explore new opportunities, by the joint collaboration of theorists and experimentalists between Japan and France. We have already made the first research achievement, on the study of spin-depended muon to electron conversion, which has been published in a scientific journal of Physics Letters in 2017 [1]. This physics case has never previously been considered. We will explore further unique physics cases in our research collaboration. To achieve this goal, we are planning to organize informal meetings and workshops between French and Japanese.

French members :
S. Davidson,

Revision 112017-07-06 - Main.GenevieveGilbert

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HEP_06 : Charged lepton flavour violation-searching for indirect signals of new physics

Summary :

Changed:

<
<

>
>

French members :
S. Davidson,

Line: 145 to 145

S. Kanemura

References :

Added:

>
>

[1] V. Cirigliano, S. Davidson and Y. Kuno, “Spin-dependent μ-e conversion“ Phys. Lett. B771 (2017) 242-246

Revision 102017-06-30 - Main.GenevieveGilbert

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

HEP_01 : ILC Top

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HEP_04 : Cosmological tests of Fundamental Physics

Summary :

Changed:

<
<

Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics). Our project aims at investigating some theoretical ideas advanced to tackle several of the above-mentioned problems and their related phenomenological tests. In particular, we give high importance to the possibility to achieve the solution to several of these puzzles within the same (relatively simple) framework, as well as to the opportunity to establish links with the latest discoveries in the field of particle physics, notably Higgs and neutrino oscillations. For instance, the inflaton field may be related to the mass generation mechanism of right handed neutrinos, needed for neutrino oscillations, providing at the same time a dark matter candidate. We focus in particular on scenarios where the inflation and/or the additional degrees of freedom needed in a UV completion of the model are at or below the TeV scale, with obvious interesting implication for collider searches, at the energy frontier and/or at the intensity one. One such simple and attractive model is for instance the SM extension via a gauged U_{B-L}(1) symmetry, where the electroweak symmetry is radiatively broken by the Coleman-Weinberg mechanism. Some implications for small-field inflation inspired by this model have been already been analyzed in Ref. [1]. Others, notably for the reheating (at low temperatures), dark matter production, and possibly the associated Z’ phenomenology, are currently under scrutiny

>
>

Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics). The links between cosmology and particle physics heavily rely on the understanding on the history of the universe, which is often based on standard assumptions. For instance: an inflationary epoch produces a quasi-power law spectrum of perturbations (seeds of current structures) and ends in a radiation dominated period, during which conventional electroweak symmetry and QCD breaking happen as crossovers, according to the SM. Dark Matter is usually considered to be a particle relic, once in thermal contact with other SM species, etc. We are exploring possible departures from this simple picture. In the classically conformal extension of the SM, S. Iso, P. Serpico, and K. Shimada found that the chiral condensation in QCD can play an important role in the dynamics of the electroweak symmetry breaking. The phase transition becomes of the first order type and accordingly generates large gravitational waves that can be detected by future gravitational wave detectors [2]. Always related to gravitational waves, it is well known that the LIGO interferometers have detected their first sources of gravitational waves, from coalescences of binary black holes (BHs). While such binaries have long been considered an attractive candidate, the mechanism to produce them is not established, yet, in particular for such high masses (about 30 times the mass of the sun). It has also been conjectured that such BH may be of primordial origin. Their formation requires a significant departure from the simplest inflationary models, and at the same time it would lead to non-standard cosmological signatures, which can be searched for. This is another sector we are working on (notably k. Kohri with P. Serpico and V. Poulin) and some results are expected in the current year

French members :
P. Serpico,

Line: 121 to 121

[1] S. Iso, K. Kohri and K. Shimada, "Dynamical fine-tuning of initial conditions for small field inflation," Phys. Rev. D 93, 084009 (2016)

Changed:

<
<

[arXiv:1511.05923]

>
>

[arXiv:1511.05923]
[2] S. Iso, P. D. Serpico and K. Shimada, "QCD-Electroweak first order phase transition in supercooled universe,'' arXiv:1704.04955

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

Revision 92017-06-29 - Main.GenevieveGilbert

 			 META TOPICPARENT 
			 name="FJPPLprojects" 
		
HEP_01 : ILC Top
- META TOPICPARENT
+ name="FJPPLprojects"
 using Leading Order expressions [4] should provide top-coupling measurements with an accuracy similar to the one attained using the semi-leptonic events, but with different systematical effects.

French members :
-<
<
+F. Le Diberder, E. Kou, R. Poeschl, F. Richard, A. Lleres, V. Shavy
->
>
+F. Le Diberder, S. Bilokin, P. Colas, E. Kou, R. Poeschl, F. Richard, V. Shavy, M. Titov, B. Tuchming
 Japanese members :
-<
<
+K. Fujii, A. Ishikawa, Y. Kiyo, Y. Kurihara, T. Suehara, Y. Sudo, Y. Sumino, T. Tanabe
->
>
+K. Fujii, A. Ishikawa, D. Jeans, Y. Kiyo, M. Kurata, Y. Kurihara, T. Suehara, Y. Sato, Y. Sumino, T. Tanabe, H Yamamoto
 References :

[1] M.S. Amjad et al. : arXiv:1307.8102 (2013)
 R&D of silicon-tungsten calorimeter is the goal of this project. We plan to finalize the optimization of the ECAL geometry (dimensions and number of layers), to build and to test a detector (so-called "active sensor unit", or ASU) with 1024 channels per PCB serving 4 silicon sensors with 16x16 pixels, improve the DAQ software and to work on integration of several ASUs into one ILC full-scale detector. In parallel, we plan to test various designs of silicon sensors and their radiation hardness.

French members :
-<
<
+V. Balagura,
V. Boudry,
->
>
+V. Boudry,
V. Balagura,
 J-C. Brient,
R. Cornat,
-<
<
+D. Lacour,
->
>
+A. Irles
 R. Poeschl,
K. Shpak,
D. Zerwas

Japanese members :
-<
<
+Y. Kamiya,
S. Komamiya,
D. Jeans,
->
>
+D. Jeans,
Y. Kamiya,
 K. Kawagoe,
-<
<
+T. Suehara
->
>
+S. Komamiya,
H. Nakanishi,
T. Suehara,
H. Yamashiro
 References :

[1] T.H.Tran, "ILD SiW ECAL and sDHCAL dimension-performance optimisation", report at LCWS'13, arXiv:1404.3173 [physics.ins-det]
 Apart from focussing on the more theoretical construction of the corresponding models, we also investigate in detail the bounds and discovery potential of new fundamental particles present in these models, such as new heavy vector-like quarks and other new vector [3] and scalar particles [4]. 

French members :
-<
<
+A. Deandrea, 
G. Cacciapaglia, 
S.  Le Corre
->
>
+P. Serpico, 
G. Belanger,
F. Boudjema, 
K. Shimada
 Japanese members :
-<
<
+Y. Okada,
D. Harada,
M. Hashimoto,
->
>
+K. Kohri,
S. Iso
 References :

[1] G.Cacciapaglia, A.Deandrea, L.Panizzi, N.Gaur, D.Harada and Y.Okada, “Heavy Vector-like Top Partners at the LHC and flavour constraints”, JHEP 1203 (2012) 070 [arXiv:1108.6329]
 "Dynamical fine-tuning of initial conditions for small field inflation,"
  Phys. Rev. D  93, 084009 (2016)
  [arXiv:1511.05923]
\ No newline at end of file
->
>
+------------------------------ 


HEP_06 : Charged lepton flavour violation-searching for indirect signals of new physics 

Summary :



French members :

S. Davidson, 
A. M.Teixeira 


Japanese members : 

Y. Kuno,
J. Sato,
K. Tobe,
S. Kanemura

References :

Revision 82016-08-31 - Main.GenevieveGilbert

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META TOPICPARENT	name="FJPPLprojects"

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Y. Kamiya, S. Komamiya, D. Jeans,

Added:

>
>

K. Kawagoe, T. Suehara

References :
[1] T.H.Tran, "ILD SiW ECAL and sDHCAL dimension-performance optimisation", report at LCWS'13, arXiv:1404.3173 [physics.ins-det]

Revision 72016-08-02 - Main.GenevieveGilbert

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HEP_01 : ILC Top

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HEP_04 : Cosmological tests of Fundamental Physics

Summary :

Changed:

<
<

>
>

Several astrophysical or cosmological observations (evidences for dark matter, baryon asymmetry, inflation...) require an extension of the Standard Model of particle physics (so-called “beyond the standard model” (BSM) physics). Our project aims at investigating some theoretical ideas advanced to tackle several of the above-mentioned problems and their related phenomenological tests. In particular, we give high importance to the possibility to achieve the solution to several of these puzzles within the same (relatively simple) framework, as well as to the opportunity to establish links with the latest discoveries in the field of particle physics, notably Higgs and neutrino oscillations. For instance, the inflaton field may be related to the mass generation mechanism of right handed neutrinos, needed for neutrino oscillations, providing at the same time a dark matter candidate. We focus in particular on scenarios where the inflation and/or the additional degrees of freedom needed in a UV completion of the model are at or below the TeV scale, with obvious interesting implication for collider searches, at the energy frontier and/or at the intensity one. One such simple and attractive model is for instance the SM extension via a gauged U_{B-L}(1) symmetry, where the electroweak symmetry is radiatively broken by the Coleman-Weinberg mechanism. Some implications for small-field inflation inspired by this model have been already been analyzed in Ref. [1]. Others, notably for the reheating (at low temperatures), dark matter production, and possibly the associated Z’ phenomenology, are currently under scrutiny

French members :
P. Serpico,

Line: 113 to 114

S. Iso

References :

Added:

>
>

[1] S. Iso, K. Kohri and K. Shimada, "Dynamical fine-tuning of initial conditions for small field inflation," Phys. Rev. D 93, 084009 (2016) [arXiv:1511.05923]

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French members :
V. Balagura,

Deleted:

<
<

M. Anduze,

V. Boudry, J-C. Brient, R. Cornat,

Changed:

<
<

T. Tran

>
>

D. Lacour, R. Poeschl, K. Shpak, D. Zerwas

Japanese members :
Y. Kamiya,

Line: 91 to 93

[2] G.Cacciapaglia, A.Deandrea, N.Gaur, D.Harada, Y.Okada and L.Panizzi, “Interplay of vector-like top partner multiplets in a realistic mixing set-up,” arXiv:1502.00370 [hep-ph]
[3] M.Hashimoto, “Composite Z′,” Phys. Rev. D 90 (2014) , 096004, [arXiv:1409.4954]
[4] G.Cacciapaglia, A.Deandrea and M.Hashimoto, "A scalar hint from the diboson excess?,'' arXiv:1507.03098 [hep-ph]
\ No newline at end of file

Added:

>
>

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

HEP_04 : Cosmological tests of Fundamental Physics

Summary :

French members :
P. Serpico, G. Bélanger, F. Boudjema, K. Shimada

Japanese members :
K. Kohri, S. Iso

References :

Revision 52015-07-16 - Main.PhilipBambade

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HEP_01 : ILC Top

Line: 42 to 42

Summary :
A compact and highly granular electromagnetic calorimeter at ILC is one of the key requirements for PFA high precision jet reconstruction and realization of ILC physics potential.

Changed:

<
<

R&D of silicon-tungsten calorimeter is the goal of this project. We plan to finalize the optimization of the ECAL geometry (dimensions and number of layers), to build and to test a detector (so-called "active sensor unit", or ASU) with 1024 channels per PCB serving 4 silicon sensors with 16x16 pixels, improve the DAQ software and to work on integration of several ASUs into one ILC full-scale detector. In parallel, Tokyo University plans irradiation tests and Kyushu University - tests of different designs of silicon sensors.

>
>

R&D of silicon-tungsten calorimeter is the goal of this project. We plan to finalize the optimization of the ECAL geometry (dimensions and number of layers), to build and to test a detector (so-called "active sensor unit", or ASU) with 1024 channels per PCB serving 4 silicon sensors with 16x16 pixels, improve the DAQ software and to work on integration of several ASUs into one ILC full-scale detector. In parallel, we plan to test various designs of silicon sensors and their radiation hardness.

French members :
V. Balagura,

Revision 42015-07-16 - Main.PhilipBambade

Line: 1 to 1

META TOPICPARENT	name="FJPPLprojects"

HEP_01 : ILC Top

Line: 72 to 72

HEP_03 : Composite models and their phenomenology at the LHC

Summary :

Added:

>
>

An intriguing possibility in particle theory models is that the Higgs boson may be at least partially a composite state of an underlying strong dynamics, which may also allow for the existence of other states, among which Dark Matter and new scalar, fermion and vector particles. The Yukawa structure of the Standard Model of particle physics may also be dynamically generated, so that some strong dynamics at high-energy scale may be visible as deviations in the flavour measurements or as the appearance of new particles in the physical spectrum [1,2]. This possibility can be studied in detail at the Large Hadron Collider at CERN and by other collider or high precision lower energy experiments. Apart from focussing on the more theoretical construction of the corresponding models, we also investigate in detail the bounds and discovery potential of new fundamental particles present in these models, such as new heavy vector-like quarks and other new vector [3] and scalar particles [4].

French members :
A. Deandrea, G. Cacciapaglia,

Changed:

<
<

>
>

S. Le Corre

Japanese members :
Y. Okada,

Line: 84 to 87

M. Hashimoto,

References :
\ No newline at end of file

Added:

>
>

[1] G.Cacciapaglia, A.Deandrea, L.Panizzi, N.Gaur, D.Harada and Y.Okada, “Heavy Vector-like Top Partners at the LHC and flavour constraints”, JHEP 1203 (2012) 070 [arXiv:1108.6329]
[2] G.Cacciapaglia, A.Deandrea, N.Gaur, D.Harada, Y.Okada and L.Panizzi, “Interplay of vector-like top partner multiplets in a realistic mixing set-up,” arXiv:1502.00370 [hep-ph]
[3] M.Hashimoto, “Composite Z′,” Phys. Rev. D 90 (2014) , 096004, [arXiv:1409.4954]
[4] G.Cacciapaglia, A.Deandrea and M.Hashimoto, "A scalar hint from the diboson excess?,'' arXiv:1507.03098 [hep-ph]

Revision 32015-07-15 - Main.PhilipBambade

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Revision 22015-07-14 - Main.PhilipBambade

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HEP_01 : ILC Top

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META TOPICPARENT	name="FJPPLprojects"

HEP_01 : ILC Top

Summary :

The ILC Physics Case can be summarized in two main domains: precision measurements and discovery potential. Whereas the principal aim of the precision measurements concerns the Higgs, a secondary but very important aim is to study the top: to determine accurately its mass and to measure its couplings to the SM vector bosons. The top mass will be obtained at 350 GeV, by scanning the threshold of the top pair production. The top couplings to the photon and the Z0 will be measured at about 500 GeV.
For both measurements, a precise mastering of the ElectroWeak loop corrections is essential since it appears that they induce sizeable corrections to the leading mechanisms (typically 5-10%) far larger than the precision achievable at the ILC.
The goals of the TYL project “top-ILC” are twofold: strengthen further the 500 GeV analysis that has been developed in the past years using semi-leptonic events [1], and design means to control theoretically and experimentally the ElectroWeak loop corrections.
In that respect, following the first top-ILC workshop held in KeK (2013) one of the approach that is pursued is to assess the potential of the double leptonic events, where both W’s decay leptonically.
Using Monte Carlo events provided by GRACE [2], it has been shown that experimentally one can cope with the two missing neutrinos and that a Matrix Element [3] analysis of the events using Leading Order expressions [4] should provide top-coupling measurements with an accuracy similar to the one attained using the semi-leptonic events, but with different systematical effects.

French members :
F. Le Diberder, E. Kou, R. Poeschl, F. Richard, A. Lleres, V. Shavy

Japanese members :
K. Fujii, A. Ishikawa, Y. Kiyo, Y. Kurihara, T. Suehara, Y. Sudo, Y. Sumino, T. Tanabe

References :
[1] M.S. Amjad et al. : arXiv:1307.8102 (2013)
[2] Progress of Theoretical Physics, Vol. XX, No. X, October 1999
[3] H.J. Behrends et al., CELLO Collab. Z. Phys. C43 (1989)
[4] G. Kane, G. Ladinsky and C.P. Yuan, Phys. Rev. D 45 (1992)

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HEP_02 : ILC ECAL

Summary :
A compact and highly granular electromagnetic calorimeter at ILC is one of the key requirements for PFA high precision jet reconstruction and realization of ILC physics potential. R&D of silicon-tungsten calorimeter is the goal of this project. We plan to finalize the optimization of the ECAL geometry (dimensions and number of layers), to build and to test a detector (so-called "active sensor unit", or ASU) with 1024 channels per PCB serving 4 silicon sensors with 16x16 pixels, improve the DAQ software and to work on integration of several ASUs into one ILC full-scale detector. In parallel, Tokyo University plans irradiation tests and Kyushu University - tests of different designs of silicon sensors.

French members :
V. Balagura, M. Anduze, V. Boudry, J-C. Brient, R. Cornat, T. Tran

Japanese members :
Y. Kamiya, S. Komamiya, D. Jeans,

website :
https://twiki.cern.ch/twiki/bin/view/CALICE/SiWEcal

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HEP_03 : Composite models and their phenomenology at the LHC

Summary :

French members :
A. Deandrea, G. Cacciapaglia,

Japanese members :
Y. Okada, D. Harada, M. Hashimoto,

References :

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