Quantum leap in lasers brightens future for quantum computingDartmouth CollegePhysical Review B
Efficient, electrically pumped lasers integrated into silicon photonic platforms open new possibilities for quantum computing hardware, neuromorphic systems, and advanced communication networks. Additionally, the compatibility of these devices with existing CMOS technology offers a pathway for large-scale ...
In fact, the laser company TOPTICA Photonics AG (Munich, Germany), which has its origins in laser cooling and spectroscopy of atomic species, is now the major provider of laser systems for all areas of quantum technologies: quantum communication, quantum computing, quantum simulation, quan...
Researchers at Lawrence Berkeley National Laboratory have developed a method using a femtosecond laser and hydrogen doping to create and control qubits in silicon, potentially revolutionizing quantum computing by enabling precise qubit placement and connectivity for scalable quantum networks and the quantum i...
“[Optical qubits] have demonstrated something that has never been shown before, which is the ability to trap atoms without trap-induced decoherence,” Hays said. “For the first time, with individual atoms, we’ve created a quantum computing system that has no decoherence, the purely...
UCSB Researchers Create Matchbox-Sized Laser for Quantum Computing and Sensors Jan 21, 2025 EPA Approves Bridger Photonics’ Gas Mapping LiDAR™ for Regulatory Methane Emissions Monitoring Jan 21, 2025 Report Forecasts Growth of Global Tunable Diode Laser Analyzer (TDLA) Market for the Next ...
Extremely cold atoms were thrown with one laser beam and caught with another. The technique could be used in quantum computing
TOPTICA develops and manufactures Diode Lasers, Ultrafast Fiber Lasers, THz Systems and Frequency Combs for Biophotonics, Industrial Measurement and Quantum Technology.
lasers have been utilized for numerous scientific, life science and imaging applications including: fluorescence spectroscopy, speckle imaging, remote sensing, illumination, metrology, holography, resonant light absorption for atomic clocks, magnetometers and inertial navigation, and quantum computing. ...
lasers have been utilized for numerous scientific, life science and imaging applications including: fluorescence spectroscopy, speckle imaging, remote sensing, illumination, metrology, holography, resonant light absorption for atomic clocks, magnetometers and inertial navigation, and quantum computing. ...