https://t.co/y1CC8QFWZ7 "The Einstein-Podolsky-Rosen (EPR) paradox plays a fundamental role in our ... The more general phase-generator complementarity principle ..."
RT @NCCR_QSIT: New work by Matteo Fadel (@unibas_phys), working with Benjamin Yadin (@UniofNottingham & @UniofOxford) & Manuel Gessner (@lk…
Check out this paper, it's really great!
RT @NCCR_QSIT: New work by Matteo Fadel (@unibas_phys), working with Benjamin Yadin (@UniofNottingham & @UniofOxford) & Manuel Gessner (@lk…
New work by Matteo Fadel (@unibas_phys), working with Benjamin Yadin (@UniofNottingham & @UniofOxford) & Manuel Gessner (@lkb_lab), in which they formulate the EPR paradox in the framework of quantum metrology (https://t.co/Ly7OiAz2Rg). https://t.
RT @Dragonmaurizio: The EPR paradox. #Quantum steering describes the process in #QuantumMechanics of two entangled particles manipulate sep…
RT @Dragonmaurizio: The EPR paradox. #Quantum steering describes the process in #QuantumMechanics of two entangled particles manipulate sep…
RT @Dragonmaurizio: The EPR paradox. #Quantum steering describes the process in #QuantumMechanics of two entangled particles manipulate sep…
The EPR paradox. #Quantum steering describes the process in #QuantumMechanics of two entangled particles manipulate separately, a measurement on particle (A), allows to make more precise predictions about the possible state of particle (B). https://t.co/gp
#Quantummetrology assisted by Einstein-Podolsky-Rosen steering #QuantumPhysics https://t.co/vLUwbx0pKD #lib_arXiv
[2009.08440] Benjamin Yadin, Matteo Fadel, Manuel Gessner: Quantum metrology assisted by Einstein-Podolsky-Rosen steering https://t.co/2uWyl3hv0Y https://t.co/knkn24fIja