#NaturePhysics #Quantum #Entanglement
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A photon–photon quantum gate based on Rydberg interactions
Citation : doi:10.1038/s41567-018-0313-7
Strong and long-range interactions between Rydberg states of neutral atoms can be mapped to light via electromagnetically induced transparency, realizing a photon–photon quantum gate for quantum communications and networking.
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➖@Physics_Revives➖
A photon–photon quantum gate based on Rydberg interactions
Citation : doi:10.1038/s41567-018-0313-7
Strong and long-range interactions between Rydberg states of neutral atoms can be mapped to light via electromagnetically induced transparency, realizing a photon–photon quantum gate for quantum communications and networking.
➖@Physics_Revives➖
To follow up with papers like this one, visit this channel.
Nature Physics
A photon–photon quantum gate based on Rydberg interactions
Strong and long-range interactions between Rydberg states of neutral atoms can be mapped to light via electromagnetically induced transparency, realizing a photon–photon quantum gate for quantum communications and networking.
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#Quantum
#Entanglement
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Remote connections? Detangling entanglement in quantum physics
Quantum computers, quantum cryptography and quantum (insert name here) are often in the news these days. Articles about them inevitably refer to entanglement, a property of quantum physics that makes all these magical devices possible.
➖@Physics_Revives➖
#Quantum
#Entanglement
➖@Physics_Revives➖
Remote connections? Detangling entanglement in quantum physics
Quantum computers, quantum cryptography and quantum (insert name here) are often in the news these days. Articles about them inevitably refer to entanglement, a property of quantum physics that makes all these magical devices possible.
➖@Physics_Revives➖
phys.org
Remote connections? Detangling entanglement in quantum physics
Quantum computers, quantum cryptography and quantum (insert name here) are often in the news these days. Articles about them inevitably refer to entanglement, a property of quantum physics that makes ...
#PhysicsNEWS
#Entanglement
➖@Phytimes➖
Experimental optimal verification of entangled states using local measurements
Quantum information is a field where the information is encoded into quantum states. Taking advantage of the "quantumness" of these states, scientists can perform more efficient computations and more secure cryptography compared to their classical counterparts.
➖@Phytimes➖
#Entanglement
➖@Phytimes➖
Experimental optimal verification of entangled states using local measurements
Quantum information is a field where the information is encoded into quantum states. Taking advantage of the "quantumness" of these states, scientists can perform more efficient computations and more secure cryptography compared to their classical counterparts.
➖@Phytimes➖
phys.org
Experimental optimal verification of entangled states using local measurements
Quantum information is a field where the information is encoded into quantum states. Taking advantage of the "quantumness" of these states, scientists can perform more efficient computations and more ...
#PhysicsNEWS
#Entanglement
➖@Phytimes➖
Researchers create entangled photons 100 times more efficiently than previously possible
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives—but first, researchers need a fast, efficient source of the entangled pairs of photons such systems use to transmit and manipulate information. Researchers at Stevens Institute of Technology have done just that, not only creating a chip-based photon source 100 times more efficient that previously possible, but bringing massive quantum device integration within reach.
➖@Phytimes➖
#Entanglement
➖@Phytimes➖
Researchers create entangled photons 100 times more efficiently than previously possible
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives—but first, researchers need a fast, efficient source of the entangled pairs of photons such systems use to transmit and manipulate information. Researchers at Stevens Institute of Technology have done just that, not only creating a chip-based photon source 100 times more efficient that previously possible, but bringing massive quantum device integration within reach.
➖@Phytimes➖
phys.org
Researchers create entangled photons 100 times more efficiently than previously possible
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives—but first, researchers need a fast, efficient source of the entangled pairs of photons such ...