A number of individuals with MIT ties have received honors from the American Physical Society (APS) for 2024 and 2025.
Awardees include Professor Frances Ross; Professor Vladan Vuletic, graduate student Jiliang Hu ’19, PhD ’24; as well as 10 alumni. New APS Fellows include Professor Joseph Checkelsky, Senior Researcher John Chiaverini, Associate Professor Areg Danagoulian, Professor Ruben Juanes, and seven alumni.
Frances M. Ross , the TDK Professor in Materials Science and Engineering, received the 2025 Joseph F. Keithley Award For Advances in Measurement Science "for groundbreaking advances in in situ electron microscopy in vacuum and liquid environments."
Ross uses transmission electron microscopy to watch crystals as they grow and react under different conditions, including both liquid and gaseous environments. The microscopy techniques developed over Ross’ research career help in exploring growth mechanisms during epitaxy, catalysis, and electrochemical deposition, with applications in microelectronics and energy storage. Ross’ research group continues to develop new microscopy instrumentation to enable deeper exploration of these processes.
Vladan Vuletic , the Lester Wolfe Professor of Physics, received the 2025 Arthur L. Schawlow Prize in Laser Science "for pioneering work on spin squeezing for optical atomic clocks, quantum nonlinear optics, and laser cooling to quantum degeneracy." Vuletic ’s research includes ultracold atoms, laser cooling, large-scale quantum entanglement, quantum optics, precision tests of physics beyond the Standard Model, and quantum simulation and computing with trapped neutral atoms.
His Experimental Atomic Physics Group is also affiliated with the MIT-Harvard Center for Ultracold Atoms and the Research Laboratory of Electronics (RLE). In 2020, his group showed that the precision of current atomic clocks could be improved by entangling the atoms - a quantum phenomenon by which particles are coerced to behave in a collective, highly correlated state.
Jiliang Hu received the 2024 Award for Outstanding Doctoral Thesis Research in Biological Physics "for groundbreaking biophysical contributions to microbial ecology that bridge experiment and theory, showing how only a few coarse-grained features of ecological networks can predict emergent phases of diversity, dynamics, and invasibility in microbial communities."
Hu is working in PhD advisor Professor Jeff Gore’s. He is interested in exploring the high-dimensional dynamics and emergent phenomena of complex microbial communities. In his first project, he demonstrated that multi-species communities can be described by a phase diagram as a function of the strength of interspecies interactions and the diversity of the species pool. He is now studying alternative stable states and the role of migration in the dynamics and biodiversity of metacommunities.
Alumni receiving awards:
Riccardo Betti PhD ’92 is the 2024 recipient of the John Dawson Award in Plasma Physics "for pioneering the development of statistical modeling to predict, design, and analyze implosion experiments on the 30kJ OMEGA laser, achieving hot spot energy gains above unity and record Lawson triple products for direct-drive laser fusion."Javier Mauricio Duarte ’10 received the 2024 Henry Primakoff Award for Early-Career Particle Physics "for accelerating trigger technologies in experimental particle physics with novel real-time approaches by embedding artificial intelligence and machine learning in programmable gate arrays, and for critical advances in Higgs physics studies at the Large Hadron Collider in all’hadronic final states."
Richard Furnstahl ’18 is the 2025 recipient of the Feshbach Prize Theoretical Nuclear Physics "for foundational contributions to calculations of nuclei, including applying the Similarity Renormalization Group to the nuclear force, grounding nuclear density functional theory in those forces, and using Bayesian methods to quantify the uncertainties in effective field theory predictions of nuclear observables."
Harold Yoonsung Hwang ’93, SM ’93 is the 2024 recipient of the James C. McGroddy Prize for New Materials "for pioneering work in oxide interfaces, dilute superconductivity in heterostructures, freestanding oxide membranes, and superconducting nickelates using pulsed laser deposition, as well as for significant early contributions to the physics of bulk transition metal oxides."
James P. Knauer ’72 received the 2024 John Dawson Award in Plasma Physics "for pioneering the development of statistical modeling to predict, design, and analyze implosion experiments on the 30kJ OMEGA laser, achieving hot spot energy gains above unity and record Lawson triple products for direct-drive laser fusion."
Sekazi Mtingwa ’71 is the 2025 recipient of the John Wheatley Award "for exceptional contributions to capacity building in Africa, the Middle East, and other developing regions, including leadership in training researchers in beamline techniques at synchrotron light sources and establishing the groundwork for future facilities in the Global South.
Michael Riordan ’68, PhD ’73 received the 2025 Abraham Pais Prize for History of Physics , which "recognizes outstanding scholarly achievements in the history of physics."
Charles E. Sing PhD ’12 received the 2024 John H. Dillon Medal "for pioneering advances in polyelectrolyte phase behavior and polymer dynamics using theory and computational modeling."
David W. Taylor ’01 received the 2025 Jonathan F. Reichert and Barbara Wolff-Reichert Award for Excellence in Advanced Laboratory Instruction "for continuous physical measurement laboratory improvements, leveraging industrial and academic partnerships that enable innovative and diversified independent student projects, and giving rise to practical skillsets yielding outstanding student outcomes."
Wennie Wang ’13 is the 2025 recipient of the Maria Goeppert Mayer Award "for outstanding contributions to the field of materials science, including pioneering research on defective transition metal oxides for energy sustainability, a commitment to broadening participation of underrepresented groups in computational materials science, and leadership and advocacy in the scientific community."
APS Fellows
Joseph Checkelsky , the Mitsui Career Development Associate Professor of Physics, received the 2024 Division of Condensed Matter Physics Fellowship "for pioneering contributions to the synthesis and study of quantum materials, including kagome and pyrochlore metals and natural superlattice compounds."Affiliated with the MIT Materials Research Laboratory and the MIT Center for Quantum Engineering , Checkelsky is working at the intersection of materials synthesis and quantum physics to discover new materials and physical phenomena to expand the boundaries of understanding of quantum mechanical condensed matter systems, as well as open doorways to new technologies by realizing emergent electronic and magnetic functionalities. Research in Checkelsky’s lab focuses on the study of exotic electronic states of matter through the synthesis, measurement, and control of solid-state materials. His research includes studying correlated behavior in topologically nontrivial materials, the role of geometrical phases in electronic systems, and novel types of geometric frustration.
John Chiaverini , a senior staff member in the Quantum Information and Integrated Nanosystems group and an MIT principal investigator in RLE, was elected a 2024 Fellow of the American Physical Society in the Division of Quantum Information "for pioneering contributions to experimental quantum information science, including early demonstrations of quantum algorithms, the development of the surface-electrode ion trap, and groundbreaking work in integrated photonics for trapped-ion quantum computation."
Chiaverini is pursuing research in quantum computing and precision measurement using individual atoms. Currently, Chiaverini leads a team developing novel technologies for control of trapped-ion qubits, including trap-integrated optics and electronics; this research has the potential to allow scaling of trapped-ion systems to the larger numbers of ions needed for practical applications while maintaining high levels of control over their quantum states. He and the team are also exploring new techniques for the rapid generation of quantum entanglement between ions, as well as investigating novel encodings of quantum information that have the potential to yield higher-fidelity operations than currently available while also providing capabilities to correct the remaining errors.
Areg Danagoulian , associate professor of nuclear science and engineering, received the 2024 Forum on Physics and Society Fellowship "for seminal technological contributions in the field of arms control and cargo security, which significantly benefit international security."
His current research interests focus on nuclear physics applications in societal problems, such as nuclear nonproliferation, technologies for arms control treaty verification, nuclear safeguards, and cargo security. Danagoulian also serves as the faculty co-director for MIT’s MISTI Eurasia program.
Ruben Juanes , professor of civil and environmental engineering and earth, atmospheric and planetary sciences (CEE/EAPS) received the 2024 Division of Fluid Dynamics Fellowship "for fundamental advances - using experiments, innovative imaging, and theory - in understanding the role of wettability for controlling the dynamics of fluid displacement in porous media and geophysical flows, and exploiting this understanding to optimize."
An expert in the physics of multiphase flow in porous media, Juanes uses a mix of theory, computational, and real-life experiments to establish a fundamental understanding of how different fluids such as oil, water, and gas move through rocks, soil, or underwater reservoirs to solve energy and environmental-driven geophysical problems. His major contributions have been in developing improved safety and effectiveness of carbon sequestration, advanced understanding of fluid interactions in porous media for energy and environmental applications, imaging and computational techniques for real-time monitoring of subsurface fluid flows , and insights into how underground fluid movement contributes to landslides, floods, and earthquakes.
Alumni receiving fellowships:
Constantia Alexandrou PhD ’85 is the 2024 recipient of the Division of Nuclear Physics Fellowship "for the pioneering contributions in calculating nucleon structure observables using lattice QCD."Daniel Casey PhD ’12 received the 2024 Division of Plasma Physics Fellowship "for outstanding contributions to the understanding of the stagnation conditions required to achieve ignition."
Maria K. Chan PhD ’09 is the 2024 recipient of the Topical Group on Energy Research and Applications Fellowship "for contributions to methodological innovations, developments, and demonstrations toward the integration of computational modeling and experimental characterization to improve the understanding and design of renewable energy materials."
David Humphreys ’82, PhD ’91 received the 2024 Division of Plasma Physics Fellowship "for sustained leadership in developing the field of model-based dynamic control of magnetically confined plasmas, and for providing important and timely contributions to the understanding of tokamak stability, disruptions, and halo current physics.
Eric Torrence PhD ’97 received the 2024 Division of Particles and Fields Fellowship "for significant contributions with the ATLAS and FASER Collaborations, particularly in the searches for new physics, measurement of the LHC luminosity, and for leadership in the operations of both experiments."
Tiffany S. Santos ’02, PhD ’07 is the 2024 recipient of the Topical Group on Magnetism and Its Applications Fellowship "for innovative contributions in synthesis and characterization of novel ultrathin magnetic films and interfaces, and tailoring their properties for optimal performance, especially in magnetic data storage and spin-transport devices."
Lei Zhou ’14, PhD ’19 received the 2024 Forum on Industrial and Applied Physics Fellowship "for outstanding and sustained contributions to the fields of metamaterials, especially for proposing metasurfaces as a bridge to link propagating waves and surface waves."