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Physics is the search for and application of rules that can help us understand and predict the world around us. Central to physics are ideas such as energy, mass, particles and waves. Physics attempts to both answer philosophical questions about the nature of the universe and provide solutions to technological problems.
In solids, the quantum metric captures the quantum coherence of the electron wavefunctions. Recent experiments demonstrate the detection and manipulation of the quantum metric in a noncollinear topological antiferromagnet at room temperature.
The astronomy and quantum information science communities met together in a one-day workshop to share experiences and ideas on how to reach the next level — the quantum level — of astronomical interferometry.
A clear picture of how and why cells inevitably lose viability is still lacking. A dynamical systems view of starving bacteria points to a continuous energy expenditure needed for maintaining the right osmotic pressure as an important factor.
In solids, the quantum metric captures the quantum coherence of the electron wavefunctions. Recent experiments demonstrate the detection and manipulation of the quantum metric in a noncollinear topological antiferromagnet at room temperature.
Access to quantum computers has been democratized by the availability of cloud services from commercial providers, but the numbers of qubits users can exploit have remained modest, limited by noise and errors. What are these qubits used for and what can we expect next?
90 years after Eugene Wigner predicted the formation of an ordered electron state, direct observations of a lattice of electrons in bilayer graphene not only verify the existence of a Wigner crystal but find unexpected physics.
The astronomy and quantum information science communities met together in a one-day workshop to share experiences and ideas on how to reach the next level — the quantum level — of astronomical interferometry.