| Adjoint method for obtaining backward‐in‐time location and travel time probabilities of a conservative groundwater contaminant RM Neupauer, JL Wilson Water Resources Research 35 (11), 3389-3398, 1999 | 260 | 1999 |
| Adjoint‐derived location and travel time probabilities for a multidimensional groundwater system RM Neupauer, JL Wilson Water Resources Research 37 (6), 1657-1668, 2001 | 194 | 2001 |
| Comparison of inverse methods for reconstructing the release history of a groundwater contamination source RM Neupauer, B Borchers, JL Wilson Water Resources Research 36 (9), 2469-2475, 2000 | 121 | 2000 |
| Backward probabilistic model of groundwater contamination in non-uniform and transient flow RM Neupauer, JL Wilson Advances in Water Resources 25 (7), 733-746, 2002 | 87 | 2002 |
| Backward probability model using multiple observations of contamination to identify groundwater contamination sources at the Massachusetts Military Reservation RM Neupauer, JL Wilson Water Resources Research 41 (2), 2005 | 83 | 2005 |
| Plume spreading in groundwater by stretching and folding DC Mays, RM Neupauer Water Resources Research 48 (7), 2012 | 78 | 2012 |
| Backward fractional advection dispersion model for contaminant source prediction Y Zhang, MM Meerschaert, RM Neupauer Water Resources Research 52 (4), 2462-2473, 2016 | 69 | 2016 |
| Engineered injection and extraction to enhance reaction for improved in situ remediation AN Piscopo, RM Neupauer, DC Mays Water Resources Research 49 (6), 3618-3625, 2013 | 65 | 2013 |
| Numerical implementation of a backward probabilistic model of ground water contamination RM Neupauer, JL Wilson Groundwater 42 (2), 175-189, 2004 | 62 | 2004 |
| An iterative approach to multi-objective engineering design: Optimization of engineered injection and extraction for enhanced groundwater remediation AN Piscopo, JR Kasprzyk, RM Neupauer Environmental Modelling & Software 69, 253-261, 2015 | 59 | 2015 |
| Chaotic advection and reaction during engineered injection and extraction in heterogeneous porous media RM Neupauer, JD Meiss, DC Mays Water Resources Research 50 (2), 1433-1447, 2014 | 59 | 2014 |
| Identifying sources of a conservative groundwater contaminant using backward probabilities conditioned on measured concentrations RM Neupauer, R Lin Water resources research 42 (3), 2006 | 48 | 2006 |
| A fully-anisotropic Morlet wavelet to identify dominant orientations in a porous medium RM Neupauer, KL Powell Computers & geosciences 31 (4), 465-471, 2005 | 45 | 2005 |
| Simulating unsteady flow, anabranching, and hyporheic dynamics in a glacial meltwater stream using a coupled surface water routing and groundwater flow model JC Koch, DM McKnight, RM Neupauer Water Resources Research 47 (5), 2011 | 44 | 2011 |
| Backward location and travel time probabilities for a decaying contaminant in an aquifer RM Neupauer, JL Wilson Journal of contaminant hydrology 66 (1-2), 39-58, 2003 | 44 | 2003 |
| Forward and backward location probabilities for sorbing solutes in groundwater RM Neupauer, JL Wilson Advances in water resources 27 (7), 689-705, 2004 | 35 | 2004 |
| Effects of streambed conductance on stream depletion G Lackey, RM Neupauer, J Pitlick Water 7 (1), 271-287, 2015 | 33 | 2015 |
| Characterization of permeability anisotropy using wavelet analysis RM Neupauer, KL Powell, X Qi, DH Lee, DA Villhauer Water resources research 42 (7), 2006 | 30 | 2006 |
| Bounded fractional diffusion in geological media: Definition and L agrangian approximation Y Zhang, CT Green, EM LaBolle, RM Neupauer, HG Sun Water Resources Research 52 (11), 8561-8577, 2016 | 28 | 2016 |
| MODFLOW-2000, the US Geological Survey modular ground-water model--Documentation of the Model-Layer Variable-Direction Horizontal Anisotropy (LVDA) capability of the … ER Anderman, KL Kipp, MC Hill, J Valstar, RM Neupauer Open-File Report, 2002 | 28 | 2002 |
David C. MaysUniversity of Colorado Denver在 ucdenver.edu 的电子邮件经过验证
