Modern nuclear theory predicts that nucleons appear less “squishy” when probed with neutrinos than was previously inferred from experimental data.
Modern nuclear theory predicts that nucleons appear less “squishy” when probed with neutrinos than was previously inferred from experimental data.
Researchers from Penn have helped develop a new carbon-capture solution for a cleaner, more energy-dense fuel source.
Scientists successfully measure high-dimensional qudits, cousins to quantum computing qubits.
With funding from the National Science Foundation’s CAREER Award, Posa is working on a new teaching method where robots interact with objects in the real world to build real-world intelligence via small data sets.
Nuclear “filters” will aid in searches for new-physics events occurring with odds of one in 100 quadrillion.
Researchers from Penn Engineering have created a new synthetic biology approach to uncover why some cells become resistant to anti-cancer therapies.
Through the PURM internship program, undergraduate students are further researching an algorithm developed to group kidney donor-recipient pairs into low-risk and high-risk groups for graft survival.
Penn Professors Vijay Balasubramanian and Mark Devlin offer a broader understanding of a recent paper’s claim that the universe could be 26.7 billion years old.
Researchers worked out how to efficiently prepare wave functions for the lithium-6 nuclear ground state and implemented those on quantum hardware.
Researchers worked out how to efficiently prepare wave functions for the lithium-6 nuclear ground state and implemented those on quantum hardware.