Since 2013, there was a number of publications based on the HepSim simulated samples. Here are some of them I'm aware of:
A. V. Kotwal, S. Chekanov, M. Low, Double Higgs Production in the 4τ channel from resonances in longitudinal vector boson scattering at a 100 TeV collider, arXiv:1504.08042. Phys. Rev. D 91, 114018 (2015)
B.Auerbach, S.Chekanov, J.Love, J.Proudfoot and A.V.Kotwal. “Sensitivity to new high-mass states decaying to ttbar at a 100 TeV collider”, arXiv:1412.5951. 2014. Phys. Rev. D 91 (2015) 034014
R.Calkins et al. Reconstructing top quarks at the upgraded LHC and at future accelerators. (Summary of the Snowmass Top algorithms and detectors. High Energy Frontier Study Group). E-print: arXiv:1307.6908. Snowmass proceedings 2013. SNOW13-00076
B.Auerbach, S.V.Chekanov, N.Kidonakis. Studies of highly-boosted top quarks near the TeV scale using jet masses at the LHC. E-print: arxiv.org:1301.5810 ANL-HEP-13-05. Snowmass proceedings 2013
K.Agashe et al., Snowmass 2013 Top quark working group report. Top Working Group. e-Print: arXiv:1311.2028
J.Adelman, M.Baumgart, A.Garcia-Bellido, A.Loginov. Determining Top Quark Couplings at the LHC: Snowmass White Paper arXiv:1308.5274. SNOW13-00154
S.V. Chekanov, I. Pogrebnyak, D. Wilbern, Cross-platform validation and analysis environment for particle physics, arXiv:1510.06638
S.V.Chekanov, J.Dull. Energy range of hadronic calorimeter towers and cells for high-pT jets at a 100 TeV collider, arXiv:1510.06638
S.V. Chekanov and M. Demarteau, Conceptual Design Studies for a CEPC Detector. arXiv:1604.01994 (April 7, 2016). A white paper contributed to the IAS Program on High Energy Physics (4-29 Jan, 2016).
There is also a number ATLAS studies that used HepSim files from this repository.
HepSim in public talks
S.Chekanov. Challenges for Higgs physics for a 100 TeV collider. Link to PDF. CPAD conference. Arlington, Taxes, USA, October 5, 2015
A.V. Kotwal. Study of double Higgs production at a VLHC. Link to the talk.
S.Chekanov. Sensitivity to New High-mass States Decaying to ttbar in Fully Boosted Regime at a 100 TeV Collider Link to a talk in PDF. IAS program on Future of HEP. Jan 2008, 2015. Joint Consortium of Fundamental Physics, Hong Kong, China. link to the talk.
S.Chekanov. Studies of HCAL calorimeter segmentation for FCC (Link to a talk). FCC-hh calorimeters informal meeting, Dec. 2015
C.Doglioni. High mass resonances: reach and detector requirements. Higgs & BSM at 100 TeV workshop.11-13 March 2015, CERN Link to the talk
S.Chekanov, J.Proudfoot, Effect of had. calorimeter transversal granularity on boosted top mass resolution. Link to a talk
C.Helsens, Performance requirements of the electromagnetic and hadronic calorimeters. Workshop on requirements for future detector technologies in view of FCC-hh. Link to a talk.
J.Love. A study of high mass Z' → tt decays: lessons learned. Link to the talk. Higgs & BSM at 100 TeV meeting (March, 11-15, 2015)
C.Solans, Longitudinal containment parametrization for TeV single hadrons and jets at a 100 TeV collider. FCC-hh calorimeters informal meeting, Link to the talk
S.Chekanov. High-mass states decaying to ttbar in fully boosted regime at a 100 TeV collider. Next steps in the Energy Frontier - Hadron Colliders, Workshop at LPC@FNAL. Link to the meeting
S.Chekanov. Performance requirements for Hadron Calorimeters. First Annual Meeting of the Future Circular Collider (FCC) study. 23-29 March 2015, Washington D.C. Link to the talk.
Simulations for the Energy Frontier. JLab detector group meeting (plusANL/HEP and ANL/Physics divisions). Jan 13, 2016. jlab_simulations_hep.pdf