gluino m - university of michiganmctp/sciprgpgs/events/2008/lhc2008/kimyg_gsmmu[1].pdf · the lsp...
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Gluino mT2
Yeong Gyun Kim (Sejong U.& KAIST)
In collaboration with W .S.Cho, K.Choi, C.B.Park
Ref) arXiv:0709.0288, arXiv:0711.4526
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SUSY at the LHC
Cam bridge mT2 variable
‘Gluino’ mT2 variable
Conclusion
Contents
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SUSY at the LHC
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General features for SUSY at the LHC Dom inated by the production of gluinos and squarks, unless they are too heavy
Squark and gluino production rates
determ ined by strong interaction, and the squark and gluino m asses,
do not depend on the details of m odel
(Baer etal. 1995) ~ 50 pb for m _gluino~ 500 G eV~ 1 pb for m _gluino~ 1000 G eV
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The gluinos and squarks cascade down, generally in several steps, to the final states including m ultijets (and/or leptons) and undetected two LSPs
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Characteristic signals of SUSY with Rp
Invisible LSPs
M issing Transverse Energy
Decays of squarks and gluinos
Large m ultiplicity of hadronic jets
and/or Decays of sleptons and gauginos
Isolated leptons
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Precise m easurem ent of SUSY particle m asses
Reconstruction of the SUSY theory (SUSY breaking m echanism )
M easurem ent of SUSY m asses
SUSY events always contain two invisible LSPs
No m asses can be reconstructed directly
One prom ising approach
Identify particular decay chain and m easure kinem atic endpoints using visible particles (functions of sparticle m asses)
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W hen a long decay chain can be identified, various com binations of m asses can be determ ined in a m odel independent way
Five endpoint m easurem entsFour unknown m asses
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For SPS1a point
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(Stransverse M ass)
Cam bridge mT2 variable
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Cam bridge mT2 (Lester and Sum m ers, 1999)
M assive particles pair produced
Each decays to one visible and one invisible particle.
For exam ple,
For the decay,
( )
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( : total M ET vector in the event )
However, not knowing the form of the M ET vector splitting,the best we can say is that :
with m inim ization over all possible trial LSP m om enta
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M T2 distribution for
LHC point 5, with 30 fb1,
(Lester and Sum m ers, 1999) Endpoint m easurem ent of m T2 distribution determ inesthe m other particle m ass
( w ith )
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The LSP m ass is needed as an input for mT2 calculationBut it m ight not be known in advance
m T2 depends on a trial LSP m ass M axim um of mT2 as a function of the trial LSP m ass
(Lester and Sum m ers, 1999)
Can the correlationbe expressed by an analytic form ulain term s of truesparticle m asses ?
Yes !
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Right handed squark m ass from the mT2
SPS1a point, with 30 fb1
m _qR ~ 520 G eV, m LSP ~ 96 G eV
(LHC/ILC Study G roup: hepph/0410364)
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Unconstrained m inim um of mT
At an unconstrained m inim um , w e have
w hen
Trial LSP m om entum
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Solution of mT2 (the balanced solution)
m T2 : the m inim um of mT(1) subject to the tw o constraints
m T(1) = mT(2) , and pTX(1) +pTX(2) = pTm iss
Trial LSP m om enta
w ith (for no ISR)
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with
(mq = 0 )
The balanced solution of squark mT2 in term s of visible m om enta
(Lester, Barr 0708.1028)
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In order to get the expression for mT2m ax ,
W e only have to consider the case where two m other particles are at rest and all decay productsare on the transverse plane w.r.t proton beam direction,for no ISR
In the rest fram e of squark, the quark m om enta
if both quark m om enta are along the direction of the transverse plane
(Cho, Choi, Kim and Park, 2007)
See K. Choi’s Talk
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W ell described by the above Analytic expression w ith trueSquark m ass and true LSP m ass
The m axim um of the squark mT2 (occurs at )(Cho, Choi, Kim and Park, 0709.0288)
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Som e rem arks on the effect of squark boost
In general, squarks are produced with nonzero pT
The mT2 solution is invariant under backtoback transverse boost of m other squarks(all visible m om enta are on the transverse plane)
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Cos(theta) distribution
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‘Gluino’ mT2 variable
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Gluino mT2 (stransverse m ass)
A new observable, which is an application of mT2 variable tothe process
G luinos are pair produced in protonproton collision
Each gluino decays into tw o quarks and one LSP through three body decay (offshell squark)
or tw o body cascade decay (onshell squark)
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For each gluino decay, the following transverse can be constructed
: m ass and transverse m om entum of qq system
: trial m ass and transverse m om entum of the LSP
W ith two such gluino decays in each event, the gluino mT2 is defined as
(m inim ization over all possible trial LSP m om enta)
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From the definition of the gluino mT2
Therefore, if the LSP m ass is know n, one can determ inethe gluino m ass from the endpoint m easurem ent of the gluinom T2 distribution.
However, the LSP m ass m ight not be known in advance and then, can be considered as a function of the trial LSP m ass , satisfying
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Possible mqq valuesfor three body decays of the gluino :
Each m other particleproducesone invisible LSPand m ore than one visible particles
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Gluino mT2
In the fram e of gluinos at rest
Two sets of decay productshave the sam e mqq and are parallel to each other( ) on transverse plane
( )
Diquark m om enta
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The gluino mT2 has a very interesting property
This result im plies that
The m axim um of mT2 occurs when mqq= mqq (m ax)
The m axim um of mT2 occurs when mqq= 0
( )
m T2 = m _gluino for all mqq
( This conclusion holds also for m ore general cases where mqq1 is different from m qq2 )
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Unbalanced Solution of mT2 can appear
In som e m om entum configuration , unconstrained m inim um of one mT
(2) is larger than the corresponding other mT(1)
Then, m T2 is given by the unconstrained m inim um of mT(2)
m T2(m ax) = mqq(m ax) + mx
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True gluino m ass = 780 GeV, True LSP m ass = 98 GeV
Gluino mT2 distributions for AM SB bechm ark point
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If the function could be constructed from experim ental data, which would identify the crossing point, one will be able to determ ine the gluino m ass and the LSP m ass sim ultaneously.
A num erical exam ple
and a few TeV m asses for sferm ions
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Experim ental feasibility
An exam ple (a point in m AM SB)
with a few TeV sferm ion m asses (gluino undergoes three body decay)
W ino LSP
W e have generated a M C sam ple of SUSY events, w hich corresponds to 300 fb1 by PYTHIA
The generated events further processed w ith PG S detector sim ulation,w hich approxim ates an ATLAS or CM Slike detector
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Experim ental selection cuts
At least 4 jets with
M issing transverse energy
Transverse sphericity
No bjets and noleptons
G eV
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The four leading jets are divided into two groups of dijets by hem isphere analysis
Seeding : The leading jet and the other jet which has the largest with respect to the leading jet are chosen as tw o ‘seed’ jets for the division
Association : Each of the rem aining jets is associated to the seed jet m aking a sm aller opening angle
If this procedure fail to choose tw o groups of jet pairs, W e discarded the event
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The gluino mT2 distributionwith the trial LSP m ass mx = 90 GeV
Fitting w ith a linear functionw ith a linear background,W e get the endpoints
m T2 (m ax) =
The blue histogram :SM background
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as a function of the trial LSP m ass for the benchm ark point
Fitting the data points with the abovetw o theoretical curves, we obtain
The true values are
GeV
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For case of two body cascade decay
m 2qq
m ax =
Therefore,
,
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For three body decay For tw o body cascade decay
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The above results DO NOT include system atic uncertainties associated with, for exam ple, fit function and fit range to determ ine the endpoint of m T2 distribution etc.
For sps1a case, large contributions from squarkgluino events. Still the m axim um of m T2 distribution is determ ined by gluinogluino events. Need to understand contribution from squarkgluino events (asym m etric events)
W /Z + m utijets (SM backgrounds) are not included
Som e Rem arks
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Instead of jetparing with hem ishpere analysis, calculate mT2 for all possible divisions of a given event into two sets and then m inim ize mT2 (M tgen)
Barr, Gripaios and Lester (arXiv:0711.4008 [hepph])
A Variant of ‘gluino’ mT2 with explicit constraint from the endpoint of ‘diquark’ invariant m ass (M2C)
Ross and Serna (arXiv:0712.0943 [hepph])
Possible im provem ents (?) of kink m ethod
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Conclusions
W e introduced a new observable, ‘gluino’ mT2
W e showed that the m axim um of the gluino mT2 as a function of trial LSP m ass has a kink structure at true LSP m ass from which gluino m ass and LSP m ass can be determ ined sim ultaneously.
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BACKUP
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m T2 of any event induced by m other particle pair having a vanishing total transverse m om entum in Lab. fram e is bounded from above by another m T2 of an event inducedby m other particle pair at rest
Theorem : (Cho, Choi, Kim and Park, arXiv:0711.4526)
T’
The equality in the above bound holds w hen T= T’
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For the mT2 solution, we can consider the first decay products as having total m ass m T2 ,total transverse m om entumand total transverse energy Sim ilarly, for the second products, we have m T2, ,
Arbitrary backtoback transverse boost the system s
Then,
W e have valid splitting of total M ET and thus mT2 solution.
pT(1) = pT(2) , ET(1) = ET(2)
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The balanced m T2 solution
where
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SPS1a point