| Optimal “image‐based” weighting for energy‐resolved CT TG Schmidt Medical physics 36 (7), 3018-3027, 2009 | 252 | 2009 |
| An algorithm for constrained one-step inversion of spectral CT data RF Barber, EY Sidky, TG Schmidt, X Pan Physics in Medicine & Biology 61 (10), 3784, 2016 | 181 | 2016 |
| An inverse‐geometry volumetric CT system with a large‐area scanned source: A feasibility study TG Schmidt, R Fahrig, NJ Pelc, EG Solomon Medical physics 31 (9), 2623-2627, 2004 | 117 | 2004 |
| A prototype table‐top inverse‐geometry volumetric CT system TG Schmidt, J Star‐Lack, NR Bennett, SR Mazin, EG Solomon, R Fahrig, ... Medical physics 33 (6Part1), 1867-1878, 2006 | 79 | 2006 |
| CT energy weighting in the presence of scatter and limited energy resolution TG Schmidt Medical physics 37 (3), 1056-1067, 2010 | 76 | 2010 |
| A spectral CT method to directly estimate basis material maps from experimental photon-counting data TG Schmidt, RF Barber, EY Sidky IEEE transactions on medical imaging 36 (9), 1808-1819, 2017 | 75 | 2017 |
| Experimental comparison of empirical material decomposition methods for spectral CT KC Zimmerman, TG Schmidt Physics in Medicine & Biology 60 (8), 3175, 2015 | 66 | 2015 |
| Sampling in volumetric computed tomography NJ Pelc, TG Schmidt US Patent 7,103,138, 2006 | 42 | 2006 |
| phantom study to evaluate the dose and image quality effects of a computed tomography organ‐based tube current modulation technique D Gandhi, DJ Crotty, GM Stevens, TG Schmidt Medical physics 42 (11), 6572-6578, 2015 | 40 | 2015 |
| Biplane fluoroscopy for hindfoot motion analysis during gait: A model-based evaluation JA Cross, BD McHenry, R Molthen, E Exten, TG Schmidt, GF Harris Medical Engineering & Physics 43, 118-123, 2017 | 35 | 2017 |
| Estimating the spectrum in computed tomography via Kullback–Leibler divergence constrained optimization W Ha, EY Sidky, RF Barber, TG Schmidt, X Pan Medical physics 46 (1), 81-92, 2019 | 33 | 2019 |
| Few-view single photon emission computed tomography (SPECT) reconstruction based on a blurred piecewise constant object model PA Wolf, JS Jørgensen, TG Schmidt, EY Sidky Physics in Medicine & Biology 58 (16), 5629, 2013 | 32 | 2013 |
| Quantifying the tibiofemoral joint space using x‐ray tomosynthesis B Kalinosky, JM Sabol, K Piacsek, B Heckel, T Gilat Schmidt Medical Physics 38 (12), 6672-6682, 2011 | 29 | 2011 |
| A three‐dimensional reconstruction algorithm for an inverse‐geometry volumetric CT system TG Schmidt, R Fahrig, NJ Pelc Medical physics 32 (11), 3234-3245, 2005 | 28 | 2005 |
| Pediatric chest‐abdomen‐pelvis and abdomen‐pelvis CT images with expert organ contours P Jordan, PM Adamson, V Bhattbhatt, S Beriwal, S Shen, O Radermecker, ... Medical physics 49 (5), 3523-3528, 2022 | 27 | 2022 |
| Automated selection of the optimal cardiac phase for single‐beat coronary CT angiography reconstruction D Stassi, S Dutta, H Ma, A Soderman, D Pazzani, E Gros, D Okerlund, ... Medical physics 43 (1), 324-335, 2016 | 26 | 2016 |
| Simulated scatter performance of an inverse‐geometry dedicated breast CT system R Bhagtani, TG Schmidt Medical physics 36 (3), 788-796, 2009 | 25 | 2009 |
| Experimental investigation of neural network estimator and transfer learning techniques for K‐edge spectral CT imaging KC Zimmerman, G Sharma, AK Parchur, A Joshi, TG Schmidt Medical physics 47 (2), 541-551, 2020 | 23 | 2020 |
| A fast, linear Boltzmann transport equation solver for computed tomography dose calculation (Acuros CTD) A Wang, A Maslowski, T Wareing, J Star‐Lack, TG Schmidt Medical physics 46 (2), 925-933, 2019 | 23 | 2019 |
| Region‐of‐interest material decomposition from truncated energy‐resolved CT TG Schmidt, F Pektas Medical physics 38 (10), 5657-5666, 2011 | 23 | 2011 |