Biomedical Engineering, Nuclear Engineering and Engineering Physics

trmackie@wisc.edu, (608) 262-7358

jjmagnus@wisc.edu, (608) 262-3010

Interdisciplinary Professional Programs, College of Engineering

mmalkin@wisc.edu,

Applied mathematics, numerical methods in mechanics, rheology
malkus@engr.wisc.edu,

matthew.malloy@wisc.edu,

Industrial and Systems Engineering, Interdisciplinary Professional Programs

tmmann@wisc.edu, (715) 574-5679

Chemical production planning and scheduling, Supply chain management, Optimization methods for chemical process synthesis, Computational methods for novel material discovery, Development and assessmsent of renewable energy strategies, Mixed-integer programming
christos.maravelias@wisc.edu, (608) 265-9026

Mechanical Engineering, Biomedical Engineering, Materials Science Program

Research, Design, and Product Development - Assistive Technology, Access to Science, Technology, Engineering and Mathematics Education and Careers for Individuals with Disabilities, Formative Assessment Methods for Engineering Learning
martin@engr.wisc.edu, (608) 263-9460

Biomedical Engineering, Electrical and Computer Engineering

Dr. May’s research focuses on the design and integration of computational and experimental platforms to develop multi-scale, predictive models of host-pathogen interactions and biological systems.  The May lab uses systems biology and engineering methods to understand and ultimately direct microbial and cellular systems of consequence in chr...
emay5@wisc.edu, (608) 316-4421

mccarthy@ortho.wisc.edu, (608) 263-5411

Electrical and Computer Engineering, Materials Science Program

Fiber optic mesh networks, Clinical applications of guided wave photonics, Far-infrared (terahertz) generation and spectroscopy, Applications of quantum optics, Guided wave photonic devices and circuits, Nonlinear optics materials and device
mccaughan@engr.wisc.edu,

Condensed Matter: Quantum coherence and entanglement of superconducting integrated circuits, quantum-limited amplifiers, application of SQUIDs to magnetic resonance detection.
rfmcdermott@wisc.edu, (608) 263-4476

mcglamer@engr.wisc.edu, (608) 265-4735

Interdisciplinary Professional Programs, College of Engineering

imcintosh2@wisc.edu, (608) 262-0800

Biomedical Engineering, Medical Physics, Radiology, Electrical and Computer Engineering

Magnetic resonance imaging (MRI), positron emission tomography (PET), PET/MR, PET/CT, machine learning, deep learningResearch at the UW
abmcmillan@wisc.edu, (608) 262-2622

The Medow lab focusses on biomedical engineering and mathematical approaches to solving major medical quandaries. Current projects include a new approach to CT image reconstruction and resolution of CT data inconsistency, diagnosis and treatment of hydrocephalus related shunt malfunction, development of a new ventilator to improve gas exchange in ARDS ...
medow@neurosurgery.wisc.edu, (608) 263-0485

emendonca@wisc.edu, (608) 263-6797

Biomedical Engineering, Industrial and Systems Engineering

The development of Magnetic Resonance Imaging (MRI) based acquisition and post-processing methods to visualize diffusion and activation in the human brain., Research at UW
memeyerand@wisc.edu, (608) 263-1685

Geomorphology and applied geology, shortline erosion, slope stability, hydrogeologic properties of glacial deposits, field geology
mickelson@geology.wisc.edu, (608) 262-7863

mikkelso@cae.wisc.edu, (608) 890-4897

Mechanical design, machine design, innovation and creativity, stress & fatigue analysis, fretting-fatigue, fasteners, hybrid and hybrid electric vehicles
mileston@engr.wisc.edu, (608) 262-0023

Solid state semiconductor devices; Clean room semiconductor processing;
smilicic@wisc.edu, (608) 265-2982

Interdisciplinary Professional Programs, College of Engineering

paul.miller@wisc.edu,

Electrical and Computer Engineering, Computer Sciences

bart@cs.wisc.edu, (608) 628-2158

Investigations of non-invasive techniques for magnetic resonance imaging of the cardiovascular system, quantitation of flow, coronary artery imaging and flow measurement, MR Myocradial Perfusion,
camistre@facstaff.wisc.edu, (608) 263-8313

Convective heat transfer, solar energy applications, energy utilization, bulding HVAC systems
mitchell@engr.wisc.edu, (608) 262-5972

todd.molfenter@chess.wisc.edu, (608) 262-1685

Fluid mechanics, water waves, coastal engineering, flood routing, groundwater/seepage
monkmeyer@engr.wisc.edu, (608) 238-7383

Hydrology and water resources engineering, Climate change adaptation and mitigation in civil engineering infrastructure, Restoration of hydrologic systems, Groundwater/surface water interaction, Stormwater management
rmontgomery2@wisc.edu,

Reconfigurable computer architectures, automated design for reconfigurable computing, operating system support for heterogeneous computing, systems-on-a-chip (SoCs)
klmorrow@wisc.edu,

mgmorrow@wisc.edu,

Nuclear reactor physics, computational engr., radiation hydrodynamics, technology enhanced learning, fusion reactor design
gregory.moses@wisc.edu, (608) 265-6567

dfmosher@wisc.edu, (608) 262-1576

Targeted remodeling of bone, Functional adaptation to bone fatigue, Bacteria-associated inflammatory arthritis, Anterior cruciate ligament rupture
muirp@svm.vetmed.wisc.edu, (608) 263-9819

Chemical and Biological Engineering, Biomedical Engineering

Physical chemistry of protein-protein interactions, amyloid protein aggregation
regina.murphy@wisc.edu, (608) 262-1587

jmurphy@engr.wisc.edu, (608) 265-4186

Biomedical Engineering, Materials Science and Engineering, Materials Science Program

Molecular, Cellular, and Tissue Biomechanics, Systems Biology, Cellular Engineering, Cell Motility and Tissue Dynamics
mmurrell2@wisc.edu,

Industrial and Systems Engineering, Computer Sciences

Human-computer interaction (HCI), specifically human-robot interaction, assistive, educational, and therapeutic use of humanlike robots and agents, modeling of human social behavior, activity recognition, and mobile and ubiquitous computing.
bmutlu@wisc.edu, (608) 262-6635