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Signatures of lepton-jet production at the LHC Eva Halkiadakis (Rutgers University) with Adam Falkowski, Yuri Gershtein (Rutgers University) Josh Ruderman.

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Presentation on theme: "Signatures of lepton-jet production at the LHC Eva Halkiadakis (Rutgers University) with Adam Falkowski, Yuri Gershtein (Rutgers University) Josh Ruderman."— Presentation transcript:

1 Signatures of lepton-jet production at the LHC Eva Halkiadakis (Rutgers University) with Adam Falkowski, Yuri Gershtein (Rutgers University) Josh Ruderman (Princeton University) Tomer Volansky (Institute for Advanced Study)

2 Motivation  Hidden valley models give rise to hidden sector  Weakly couple to SM particles  New physics could escape detection  Source of dark matter?  Could SUSY also be hidden?  If so, is it still possible to search for it at the LHC?  Investigate case when lightest visible neutralino is allowed to cascade into the hidden sector  This SUSY cascade produces a signature of lepton jet production  Clusters of collimated leptons  Individual leptons in the lepton jets can be quite soft and not isolated  Large multiplicity of lepton jets  Large missing energy BOOST 2010 - E. Halkiadakis2

3 Lepton Jets Production Example Squark pair production to quark and neutralino (only last step in visible sector cascade shown) BOOST 2010 - E. Halkiadakis3

4 Lepton Jets Production Example Neutralino decay to hidden sector Blue = visible sector Red = hidden sector BOOST 2010 - E. Halkiadakis4

5 Lepton Jets Production Example Cascade into hidden sector Blue = visible sector Red = hidden sector BOOST 2010 - E. Halkiadakis5

6 Lepton Jets Production Example Signature we are considering here: 2 regular jets, plus 2 lepton jets, plus MET lepton jet jet lepton jet Hidden photons decay back to SM BOOST 2010 - E. Halkiadakis6

7  Signal @ 7 TeV  gg  squark squark  q q N 1 N 1 generated with Madgraph  ~0.7 pb cross section  M squark = 400 GeV, M n1 = 5 GeV M  d = 700 MeV mostly decays to hadrons o Today’s talk primarily focuses on this M  d = 100 MeV decays to e+e-  Background @ 7 TeV  N-jet (2, 3, 4+) QCD generated with Madgraph  Binned in H T 100-250 GeV, 250-500 GeV, 500-1000GeV, 1000-inf GeV  MLM matching used  Analysis  PGS 4  http://www.physics.ucdavis.edu/~conway/research/software/pgs/pgs4-general.htm http://www.physics.ucdavis.edu/~conway/research/software/pgs/pgs4-general.htm Signal & Background http://arxiv.org/abs/1002.2952 Falkowski, Ruderman, Volansky, Zupan BOOST 2010 - E. Halkiadakis7

8 Event Selection  Use k T jet clustering algorithm with cone 0.5  Select ≥ 4 jets with p T > 40 GeV  Jet |  | < 5 (PGS default)  At least one isolated lepton jet  Define a narrow lepton jet cone of  R = 0.15  Define an isolation cone between  R = 0.15 - 0.5 BOOST 2010 - E. Halkiadakis8

9 Lepton Jet Isolation  Isolation has a dependence on Jet E T  Cut on: Iso < 0.2  exp(-E T Jet / 70)+0.01 Signal  d 700MeV (hadronic channel) QCD BackgroundSignal  d 100MeV (di-electron channel) BOOST 2010 - E. Halkiadakis9

10 Missing E T for QCD Events  Signal expected to have large MET and point in direction of lepton jet  Can we use MET as a handle?  Use MET distribution in QCD events selected with no lepton jets to predict events with exactly one lepton jet  Similar shapes  Number of events with MET>80 GeV in 100 pb-1  Predicted (zero lepton-jet): 2.03 ± 0.40  Observed (one lepton-jet): 0.96 ± 0.12 BOOST 2010 - E. Halkiadakis10

11 Missing E T for QCD Events  Similarly, use MET distribution in QCD events selected with one or no lepton jets to predict events with exactly two lepton jet  Again, similar shapes  Number of events with MET>80 GeV in 100 pb-1  Predicted (zero lepton-jet): 0.079 ± 0.016  Predicted (one lepton-jet): 0.037 ± 0.005  Observed (two lepton-jets): 1.1 ± 1.0 BOOST 2010 - E. Halkiadakis11

12 Missing E T with Signal Events  Predicted (zero lepton-jet): 0.13 ± 0.02  Predicted (one lepton-jet): 0.56 ± 0.01  Observed (two lepton-jets): 7.9 ± 0.4  Now adding hadronic channel signal events:  Predicted (zero lepton-jet): 3.1 ± 0.4  Observed (one lepton-jet): 13.5 ± 0.3 BOOST 2010 - E. Halkiadakis12

13 Invariant Mass  Reconstruct invariant mass  Assume MET is in direction of lepton jet  Two possible pairs of jet+lepton jet  Chose pair that gives closest masses  Plot the average of the two masses QCD onlyAdding Signal BOOST 2010 - E. Halkiadakis13

14 Conclusions & Future Prospects  Investigating signatures of lepton jet production in SUSY cascades at the LHC  Initial studies assuming 100 pb -1 seem promising  Lepton jet isolation dependence on jet E T as a distinguishing variable  Potential gain: use of “shrinking cone” as is done for tau ID at the Tevatron  Studied MET and invariant mass of jet + lepton jet  Further study  Two extreme cases of  d decays into mostly pions or into only electrons. BOOST 2010 - E. Halkiadakis14

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