Professor Todd Huffman

Study of built-in amplifier performance on HV-CMOS sensor for the ATLAS phase-II strip tracker upgrade

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT 831 (2016) 156-160

Authors:

Z Liang, A Affolder, K Arndt, R Bates, M Benoit, F Di Bello, A Blue, D Bortoletto, M Buckland, C Buttar, P Caragiulo, D Das, J Dopke, A Dragone, E Ehrler, V Fadeyev, Z Galloway, H Grabas, IM Gregor, P Grenier, A Grillo, M Hoeferkamp, LBA Hommels, BT Huffman, J John, K Kanisauskas, C Kenney, J Kramberger, I Mandic, D Maneuski, E Martinez-Mckinney, S McMahon, L Meng, M Mikuz, D Muenstermann, R Nickerson, I Peric, P Phillips, R Plackett, E Rubbo, J Segal, S Seidel, A Seiden, I Shipsey, W Song, M Stanitzki, D Su, C Tamma, R Turchetta, L Vigani, J Volk, R Wang, M Warren, E Wilson, S Worm, Q Xiu, J Zhang, H Zhu

Tagging $b$ quarks at extreme energies without tracks

(2016)

Authors:

B Todd Huffman, Charles Jackson, Jeff Tseng

Charge collection studies in irradiated HV-CMOS particle detectors

Journal of Instrumentation IOP Publishing 11:4 (2016) P04007

Authors:

A Affolder, M Andelković, K Arndt, R Bates, A Blue, Daniela Bortoletto, C Buttar, P Caragiulo, V Cindro, D Das, J Dopke, A Dragone, F Ehrler, V Fadeyev, Z Galloway, A Gorišek, H Grabas, IM Gregor, P Grenier, A Grillo, LBA Hommels, Brian Huffman, P Phillips, K Kanisauskas, Richard Plackett, Ian Shipsey, L Vigani, J John, Stephen McMahon, R Nickerson, C Kenney, G Kramberger, Z Liang, I Mandić, D Maneuski, M Mikuž, D Muenstermann, I Perić, F Rubbo, J Segal, A Seiden, W Song, M Stanitzki, D Su, C Tamma, R Turchetta, J Volk, R Wang, M Warren, F Wilson

Abstract:

Charge collection properties of particle detectors made in HV-CMOS technology were investigated before and after irradiation with reactor neutrons. Two different sensor types were designed and processed in 180 and 350 nm technology by AMS. Edge-TCT and charge collection measurements with electrons from 90Sr source were employed. Diffusion of generated carriers from undepleted substrate contributes significantly to the charge collection before irradiation, while after irradiation the drift contribution prevails as shown by charge measurements at different shaping times. The depleted region at a given bias voltage was found to grow with irradiation in the fluence range of interest for strip detectors at the HL-LHC. This leads to large gains in the measured charge with respect to the one before irradiation. The increase of the depleted region was attributed to removal of effective acceptors. The evolution of depleted region with fluence was investigated and modeled. Initial studies show a small effect of short term annealing on charge collection.

Search for new phenomena in dijet mass and angular distributions from pp collisions at root s=13 TeV with the ATLAS detector

Physics Letters B Elsevier 754 (2016) 302-322

Authors:

G Artoni, AJ Barr, K Becker, JK Behr, L Beresford, D Bortoletto, AM Cooper-Sarkar, M Crispin Ortuzar, JA Frost, EJ Gallas, S Gupta, C Gwenlan, D Hall, CP Hays, J Henderson, J Howard, TB Huffman, C Issever, CW Kalderon, LA Kogan, K Nagai, RB Nickerson, MA Pickering, NC Ryder, JCL Tseng, GHA Viehhauser, AR Weidberg, Z J, M Crispin Ortuzar

Abstract:

This Letter describes a model-agnostic search for pairs of jets (dijets) produced by resonant and non-resonant phenomena beyond the Standard Model in 3.6 fb-1 of proton-proton collisions with a centre-of-mass energy of s=13 TeV recorded by the ATLAS detector at the Large Hadron Collider. The distribution of the invariant mass of the two leading jets is examined for local excesses above a data-derived estimate of the smoothly falling prediction of the Standard Model. The data are also compared to a Monte Carlo simulation of Standard Model angular distributions derived from the rapidity of the two jets. No evidence of anomalous phenomena is observed in the data, which are used to exclude, at 95% CL, quantum black holes with threshold masses below 8.3 TeV, 8.1 TeV, or 5.1 TeV in three different benchmark scenarios; resonance masses below 5.2 TeV for excited quarks, 2.6 TeV in a W' model, a range of masses starting from mZ'=1.5 TeV and couplings from gq=0.2 in a Z' model; and contact interactions with a compositeness scale below 12.0 TeV and 17.5 TeV respectively for destructive and constructive interference between the new interaction and QCD processes. These results significantly extend the ATLAS limits obtained from 8 TeV data. Gaussian-shaped contributions to the mass distribution are also excluded if the effective cross-section exceeds values ranging from approximately 50-300 fb for masses below 2 TeV to 2-20 fb for masses above 4 TeV.

Radiation hardness of two CMOS prototypes for the ATLAS HL-LHC upgrade project.

Journal of Instrumentation IOP Publishing 11:02 (2016) c02005-c02005

Authors:

BT Huffman, A Affolder, K Arndt, R Bates, M Benoit, F Di Bello, A Blue, D Bortoletto, M Buckland, C Buttar, P Caragiulo, D Das, J Dopke, A Dragone, F Ehrler, V Fadeyev, Z Galloway, H Grabas, IM Gregor, P Grenier, A Grillo, M Hoeferkamp, LBA Hommels, J John, K Kanisauskas, C Kenney, J Kramberger, Z Liang, I Mandić, D Maneuski, F Martinez-Mckinney, S McMahon, L Meng, M Mikuž, D Muenstermann, R Nickerson, I Perić, P Phillips, R Plackett, F Rubbo, J Segal, S Seidel, A Seiden, I Shipsey, W Song, M Stanitzki, D Su, C Tamma, R Turchetta, L Vigani, J Volk, R Wang, M Warren, F Wilson, S Worm, Q Xiu, J Zhang, H Zhu