Find UC Berkeley Faculty

Ayesha S. Mahmud

Dept of Demography

Infectious disease dynamics, disease ecology, mathematical models, Asia, Africa, Central America, climate change

Ayesha S. Mahmud

Dept of Demography

Infectious disease dynamics, disease ecology, mathematical models, Asia, Africa, Central America, climate change

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Thomas Maimone

Dept of Chemistry

organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry, organic chemistry, drug discovery

Ussama Makdisi

Dept of History

Ottoman history, Arab history, U.S.-Arab relations, U.S. missionary work in the Middle East

Ussama Makdisi

Dept of History

Ottoman history, Arab history, U.S.-Arab relations, U.S. missionary work in the Middle East

Ussama Makdisi

Dept of History

Ottoman history, Arab history, U.S.-Arab relations, U.S. missionary work in the Middle East

Ussama Makdisi

Dept of History

Ottoman history, Arab history, U.S.-Arab relations, U.S. missionary work in the Middle East

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Simo Mäkiharju

Dept of Mechanical Engineering

experimental fluid dynamics, fluid dynamics, Cavitation, multiphase flow, drag reduction, ocean renewable energy, particle image velocimetry, Time-Resolved X-Ray Densitometry, Droplet and particle transport

Jitendra Malik

Division of Computer Science (EECS)

computer science, electrical engineering, vision science, computer vision, robotics

Jitendra Malik

Division of Computer Science (EECS)

computer science, electrical engineering, vision science, computer vision, robotics

Jitendra Malik

Division of Computer Science (EECS)

computer science, electrical engineering, vision science, computer vision, robotics

Jitendra Malik

Division of Computer Science (EECS)

computer science, electrical engineering, vision science, computer vision, robotics

Jitendra Malik

Division of Computer Science (EECS)

computer science, electrical engineering, vision science, computer vision, robotics

Ulrike Malmendier

Dept of Economics

Haas School of Business

corporate finance, behavioral finance, behavioral economics, applied, microeconomics

Ulrike Malmendier

Dept of Economics

Haas School of Business

corporate finance, behavioral finance, behavioral economics, applied, microeconomics

Ulrike Malmendier

Dept of Economics

Haas School of Business

corporate finance, behavioral finance, behavioral economics, applied, microeconomics

Ulrike Malmendier

Dept of Economics

Haas School of Business

corporate finance, behavioral finance, behavioral economics, applied, microeconomics

Ulrike Malmendier

Dept of Economics

Haas School of Business

corporate finance, behavioral finance, behavioral economics, applied, microeconomics

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Salar Mameni

Dept of Ethnic Studies

art, aesthetics and visual culture, transnational feminist and queer of color theories, Arab diaspora, Muslim diaspora, militarism, critical race theory, critical postcolonial theory, Anthropocene, extractive economies and petrocultures

Paolo Mancosu

Dept of Philosophy

philosophy, philosophy of mathematics and its history, philosophy of logic, mathematical logic

Paolo Mancosu

Dept of Philosophy

philosophy, philosophy of mathematics and its history, philosophy of logic, mathematical logic

Paolo Mancosu

Dept of Philosophy

philosophy, philosophy of mathematics and its history, philosophy of logic, mathematical logic

Paolo Mancosu

Dept of Philosophy

philosophy, philosophy of mathematics and its history, philosophy of logic, mathematical logic

Kranthi K. Mandadapu

Dept of Chemical & Biomolecular Engineering

statistical mechanics, fluid mechanics, solid mechanics, biological membranes, active matter, glassy dynamics

Kranthi K. Mandadapu

Dept of Chemical & Biomolecular Engineering

statistical mechanics, fluid mechanics, solid mechanics, biological membranes, active matter, glassy dynamics

Kranthi K. Mandadapu

Dept of Chemical & Biomolecular Engineering

statistical mechanics, fluid mechanics, solid mechanics, biological membranes, active matter, glassy dynamics

Kranthi K. Mandadapu

Dept of Chemical & Biomolecular Engineering

statistical mechanics, fluid mechanics, solid mechanics, biological membranes, active matter, glassy dynamics

Kranthi K. Mandadapu

Dept of Chemical & Biomolecular Engineering

statistical mechanics, fluid mechanics, solid mechanics, biological membranes, active matter, glassy dynamics

Kranthi K. Mandadapu

Dept of Chemical & Biomolecular Engineering

statistical mechanics, fluid mechanics, solid mechanics, biological membranes, active matter, glassy dynamics

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Michael Manga

Dept of Earth and Planetary Science

hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory

Gustavo Manso

Haas School of Business

corporate finance, entrepreneurship, innovation

Gustavo Manso

Haas School of Business

corporate finance, entrepreneurship, innovation

Gustavo Manso

Haas School of Business

corporate finance, entrepreneurship, innovation

Ajay Manthripragada

Dept of Architecture

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Beatriz Manz

Dept of Ethnic Studies

Dept of Geography

Latin America, human rights, peasantry, migrations, social movements, political conflict, Mayan communities in Guatemala, issues of memory, grief

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Philip Marcus

Dept of Mechanical Engineering

algorithms, fluid mechanics, nonlinear dynamics, atmospheric flows, convection, ocean flows, numerical analysis, wind energy, Bayesian optimization, neural networks, turbulence, planet formation, internal gravity waves, inertial waves, desalination, protoplanetary disks

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events

Raffaella Margutti

Dept of Astronomy

Dept of Physics

astrophysics, compact object mergers, core-collapse supernovae, gamma-ray bursts, Neutron Stars, radio astronomy, space astrophysics, stellar evolution, supernova shockwaves, supernovae, tidal disruption events