How Quantum Light Control is Breaking the Cold Barrier
Discover how Quantum Light Control is breaking the cold barrier in quantum computing and reshaping future technologies.
Read More How Quantum Light Control is Breaking the Cold BarrierTag: Quantum emitters
Hexagonal Boron Nitride hBN powers next-gen quantum emitters
An international group of researchers has reported a breakthrough in the creation of quantum emitters in hexagonal boron nitride hBN.
Read More Hexagonal Boron Nitride hBN powers next-gen quantum emitters
Photonic Graph States with Inefficient Quantum Emitters
Photonic graph states” are complex webs of entangled photons utilized in measurement-based quantum computation (MBQC) and quantum computers and communication networks.
Read More Photonic Graph States with Inefficient Quantum Emitters
GAQA Advance Using Sound Waves For Quantum Computing
Researchers use GAQA to manipulate quantum states with sound waves, pushing the boundaries of quantum computing and quantum acoustics.
Read More GAQA Advance Using Sound Waves For Quantum Computing
Atomic Quantum Emitters discovery using QuEEN-M by Argonne
Argonne scientists engineer atomic-scale quantum emitters, enabling precise single-photon control for future quantum computing, communication, and sensing.
Read More Atomic Quantum Emitters discovery using QuEEN-M by Argonne
PTCDA-Semiconductor Coating For Stable Single-photon Output
A new PTCDA-based coating enhances quantum light precision, enabling stable single-photon emission for advanced quantum technologies.
Read More PTCDA-Semiconductor Coating For Stable Single-photon Output
Nanophotonic Devices T Centers In Quantum Networking
Discover how nanophotonic devices with T centers could revolutionize quantum networking by enabling stable photon-based connections.
Read More Nanophotonic Devices T Centers In Quantum Networking