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2019:groups:bsm:rdm [2019/06/23 22:24] biplob.bhattacherjee |
2019:groups:bsm:rdm [2019/06/27 17:02] jose.zurita |
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Project Acronym: RDM | Project Acronym: RDM | ||
- | Interested people: Benj, Andreas Goudelis, Genevieve Belanger, Dipan Sengupta, Aoife Bharucha, José Zurita, Jose Miguel No, Jordan Bernigaud, Jan Heisig, Giacomo Polesello, Priscilla Pani, Biplob Bhattacherjee | + | Interested people: Benj, Andreas Goudelis, Genevieve Belanger, Dipan Sengupta, Aoife Bharucha, José Zurita, Jose Miguel No, Jordan Bernigaud, Jan Heisig, Giacomo Polesello, Priscilla Pani, Biplob Bhattacherjee, Andre Lessa, Cedric Delaunay, Adil Jueid. |
- | [Feel free to add your name here and edit tasks!] | + | [Feel free to edit tasks!] |
- | Goal (ambitious): study the interplay between RD anomalies and Dark Matter. | + | Goal (pseudo-ambitious): study the interplay between RD anomalies and Dark Matter. |
Goal (concrete): use the S1 leptoquark model that solves RD and RD* and study the dark matter aspect. | Goal (concrete): use the S1 leptoquark model that solves RD and RD* and study the dark matter aspect. | ||
- | Tasks: | + | Setup: Work in a model with 3 new particles (S1, chi1, chi0) and 3 couplings y^L_{3X}, y^{R}_{23} and y_D. S1 is a scalar leptoquark solving the RD anomalies, chi1 and chi0 are fermions, probably close in mass, with chi0 being a SM singlet, hence chi1 has the same SM gauge charges as S1. |
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+ | Tasks (updated from 27.06.2019) | ||
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+ | 0- We will meet on 16.07.2017 at 16:00 CERN time!!! | ||
+ | |||
+ | 1- Existing UFO seems to work. AG wants to check the .fr file. | ||
+ | |||
+ | 2- Flavor constraints: Marco made a survey of existing bounds. To make a long story short: | ||
+ | |||
+ | a) D-Dbar mixing is suppressed by theta_C^3 and one chirality flip. Gives no meaningful bounds. | ||
+ | |||
+ | b) Bc -> tau nu, Z->tau tau (1-loop x EFT) give bounds (computed). | ||
+ | |||
+ | c) Sewing altogether the allowed region can be displayed in the yL23-yR33 plane, with the results that yL < = yR. The scaling with S1 mass is seemingly trivial (to be checked). Plot by Marco will come soon (from Davide). Ref point of mS1=1.5 TeV, yL=1=yR solves the RD anomalies | ||
+ | |||
+ | 3) Relic density: from coannihilation, GB says that mchi1=890 and mchi0=800 with yd=1 gives the right relic. Ongoing work (Jan, André, Genevieve) on checking the CDFO. | ||
+ | |||
+ | 4) Recasting collider searches: | ||
+ | i) Benj wants to set-up the recast of the LQ_res + MET search. | ||
+ | ii) Bounds on chi1 come from mono/multi-jet + MET. Some of these were recasted in Fig.7 of [[https://arxiv.org/pdf/1703.00452.pdf|this fantastic paper]] (take the XF3 shaded region), which means that 500-600 GeV were excluded with the ATLAS 13.3 fb-1 search, and that HL-LHC will push the bounds to 1.1 - 1.3 TeV. Bound is almost independent on the compression (mchi1-mchi0). | ||
+ | iii) bounds from l + LQ, where LQ -> a) tau charm, b) top +tau and c) b nu. Easier to have the charm in the initial state, due to PDF suppression (but b is also possible). Giacomo, José and Jordan will look into existing searches that could give constraints. | ||
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+ | 5) 1-loop direct detection is under investigation | ||
+ | |||
+ | 6) Jordan will set-up a Dropbox folder for the project | ||
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+ | Tasks (updated, from 25.06.2019): | ||
+ | |||
+ | 1- Expand existing UFO for dark matter: add yD coupling. Make it Micromegas friendly by including tildes for dark particles (see below for details on the model). In charge: Benj,JB, DS | ||
+ | * FeynRules implementation (v2) + toy mathematica notebook: {{ 2019:groups:bsm:lqdm.fr.v2.tgz | here}}. | ||
+ | * CalcHEP/UFO v2 files: {{ 2019:groups:bsm:lqdm.ch.v2.tgz | CH}} and {{ 2019:groups:bsm:lqdm.ufo.v2.tgz | UFO}}. | ||
+ | |||
+ | 2- Check flavor constraints: how much can we relax y^L_{3X}, y^{R}_{23} / mS1^2 = 1/(4 TeV^2)? Interest is to lower mS1 and the couplings as much as possible without colliding with other flavor bounds coming from e.g: D-Dbar mixing (that would apply on combinations of couplings and masses, y^{R}_{23}^2 / mS1^2 ). Persons in charge: MN, JB, AB | ||
+ | |||
+ | 3- Monojet bounds on chi1: Assuming that chi1 decays are soft an go undetected, there will be ***unavoidable*** direct bounds from monojets on the mchi1 mass [Note that in the simplified model chi1 decays 100% into chi0 + SM particles, so there is no branching ratio dillution here). Persons in charge: JZ, DS, AL | ||
+ | |||
+ | 4- *** NEW ***: There will be constraints from gq -> l + S1 (also in principle gq -> LQ + q + l is possible, but this is suppressed by being a 2-> process instead of a 2->3 one). Persons in charge: GP, AL, JZ | ||
+ | |||
+ | 5- Relic density: We will in principle have two possible production freeze-out modes: either co-annihilation (CA) or conversion-driven (CD). Once #1 is solved, this can be investigated with micromegas (CA) or by private Jan's code (CD). Persons in charge: GB, AG, JMN, DS, JH | ||
+ | |||
+ | 6- Direct-detection (1-loop induced): This is in principle implemented in Micromegas, so it should be easy to check. Person in charge: GB, AG, DS. | ||
+ | |||
+ | ------------------------------------------------------------------ | ||
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+ | Tasks (from 20.06.2019 meeting): | ||
1- Get a working Lagrangian. From private communication with D. Marzocca we need to have both left handed and right handed couplings to S1. The dark sector includes a chi1 (coloured and charged) and a chi0 (singlet) field. The implementation include LQ couplings to lepton and quark doublets (bL-vL) and LQ couplings to the lepton and quark singlets (cR-tauR). The model finally includes a 3rd coupling (yDM) to the chi1-chi0 pair. Persons in charge: Benjamin, Dipan. | 1- Get a working Lagrangian. From private communication with D. Marzocca we need to have both left handed and right handed couplings to S1. The dark sector includes a chi1 (coloured and charged) and a chi0 (singlet) field. The implementation include LQ couplings to lepton and quark doublets (bL-vL) and LQ couplings to the lepton and quark singlets (cR-tauR). The model finally includes a 3rd coupling (yDM) to the chi1-chi0 pair. Persons in charge: Benjamin, Dipan. | ||
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+ | ** References ** | ||
+ | |||
+ | [[https://arxiv.org/pdf/1902.01789.pdf|1902.01789]] | ||
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+ | [[https://arxiv.org/pdf/1808.08179.pdf|1808.0819]] | ||
+ | |||
+ | [[https://arxiv.org/pdf/1704.05849.pdf|1704.05849]] | ||
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+ | [[https://arxiv.org/pdf/1608.07583.pdf|1608.07583]] | ||
+ | |||
+ | [[https://arxiv.org/pdf/1811.10151.pdf|CMS-EXO-17-015]] | ||
+ | |||
+ | [[https://indico.in2p3.fr/event/17790/sessions/10839/attachments/50940/65234/Stangl_1811_Arles_NP_models.pdf|Zoology of New Physics Models for the Flavour Anomalies]] |