Why some quantum materials stall while others scale
• Breadcrumb MIT News Why some quantum materials stall while others scale Why some quantum materials stall while others scale Press Contact: Previous imageNext image Audio People t
Quantum
Lincoln Laboratory technologies win seven R&D 100 Awards for 2025
• Breadcrumb MIT News Lincoln Laboratory technologies win seven R&D 100 Awards for 2025 Lincoln Laboratory technologies win seven R&D 100 Awards for 2025 Press Contact: Previous im
Theory-guided strategy expands the scope of measurable quantum interactions
• MIT proposes theory‑guided framework to measure previously invisible material properties. • Focus on electron‑phonon coupling, key to electrical, thermal, optical behavior. • Tra
Professor Emeritus Daniel Kleppner, highly influential atomic physicist, dies at 92
• Daniel Kleppner, MIT professor emeritus, passed away at 92, leaving legacy in atomic physics. • Co‑invented hydrogen maser atomic clock, advancing precision timekeeping and GPS t
The high-tech wizardry of integrated photonics
• Breadcrumb MIT News The high-tech wizardry of integrated photonics The high-tech wizardry of integrated photonics Press Contact: Media Download *Terms of Use: Images for download
New 3D chips could make electronics faster and more energy-efficient
• Breadcrumb MIT News New 3D chips could make electronics faster and more energy-efficient New 3D chips could make electronics faster and more energy-efficient Press Contact: Media
Closing in on superconducting semiconductors
• Data centers use 4.4% of US energy, with 57% consumed by CPUs and GPUs. • Rising energy demands make energy‑efficient computing essential for future high‑performance systems. • S
MIT engineers advance toward a fault-tolerant quantum computer
• MIT engineers push quantum computing toward fault tolerance by enhancing photon-atom coupling. • Stronger coupling speeds up readout, critical for rapid error correction before d
Device enables direct communication among multiple quantum processors
• MIT researchers created a superconducting interconnect enabling direct communication among multiple quantum processors. • The device supports scalable all‑to‑all connectivity, el
Researchers establish new basis for quantum sensing and communication
• MIT and UniFe researchers develop framework using non‑Gaussian quantum states for sensing and communication. • Non‑Gaussian states overcome Gaussian limitations, unlocking full q
Physicists measure a key aspect of superconductivity in 'magic-angle' graphene
• Superfluid stiffness quantifies how easily electron pairs flow without resistance. • MIT and Harvard scientists directly measured this property in magic‑angle graphene. • Magic‑a
Fast control methods enable record-setting fidelity in superconducting qubit
• MIT team develops two fast control techniques for fluxonium qubit. • Achieves world-record single-qubit fidelity of 99.998%, surpassing previous benchmarks in quantum computing.