Physics

  1. Quantum Physics

    Future quantum computing could exploit old technology

    Silicon transistors have been modified and patched together to form logic gates that could perform calculations in future quantum computers.

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  2. Science & Society

    Special Report: Gravity’s Century

    After years of pondering the interplay of space, time, matter and gravity, Einstein produced, in a single month, an utter transformation of science’s conception of the cosmos: the general theory of relativity.

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  3. Quantum Physics

    Entanglement: Gravity’s long-distance connection

    The universe may be a vast quantum computer that safely encodes spacetime in an elaborate web of entanglement.

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  4. Particle Physics

    Top 10 subatomic surprises

    Nobel Prize–winning neutrinos rank among science’s most unexpected discoveries.

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  5. Particle Physics

    Neutrinos’ identity shift snares physics Nobel

    Arthur McDonald and Takaaki Kajita shared the 2015 Nobel Prize in physics for the discovery that neutrinos oscillate between different types, which demonstrates that the particles have mass.

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  6. Astronomy

    Using general relativity to magnify the cosmos

    Astronomers have Einstein to thank for the tools that bring far-away galaxies and maybe even black hole collisions into view.

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  7. Particle Physics

    Discovery of neutrino mass earns 2015 physics Nobel

    The discovery that subatomic particles called neutrinos have mass has won Takaaki Kajita of the University of Tokyo and Arthur McDonald of Queen’s University in Kingston, Canada, the 2015 Nobel Prize in physics.

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  8. Science & Society

    Centennial books illuminate Einstein’s greatest triumph

    Scholars mark general relativity 100ths anniversary with books on history, biography, science.

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  9. Astronomy

    Einstein’s genius changed science’s perception of gravity

    Einstein struggled for years to solve the puzzle of general relativity. The pieces all fell into place in November 1915.

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  10. Quantum Physics

    Quantum choice can be counterproductive

    In a puzzling paradox, delivering quantum messages becomes more difficult if the intended recipient offers the sender multiple options for the time and place of delivery.

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  11. Particle Physics

    William Detmold: Looking deep into atoms’ hearts

    MIT theoretical physicist William Detmold probes the fundamental bits of matter that combine to form the nuclei of atoms.

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  12. Quantum Physics

    Shinsei Ryu: Error-free quantum calculations

    Physicist Shinsei Ryu navigates the confusing border between the quantum and everyday realms.

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