Towards real-world quantum networks: a review

Abstract: Quantum networks play an extremely important role in quantum information science, with application to quantum communication, computation, metrology and fundamental tests. One of the key challenges for implementing a quantum network is to distribute entangled flying qubits to spatially separated nodes, at which quantum interfaces or transducers map the entanglement onto stationary qubits. The stationary qubits at the separated nodes constitute quantum memories realized in matter while the flying qubits constitu… Show more

“…Electromagnetically induced transparency (EIT) [1,2] may be described almost like a magic tool: it makes opaque objects transparent and slows down light pulses to a crawl, even trapping these light pulses inside material objects. These make it a fun topic for public lectures, but more importantly in the last decades it has inspired a myriad of new applications, from precise atomic clocks and magnetometers [3,4] to quantum information tools [5][6][7][8]. In terms of its importance for atomic, molecular, and optical physics, the introduction of the concept of EIT may be compared with the demonstration of optical pumping several decades earlier [9].…”

A practical guide to electromagnetically induced transparency in atomic vapor

“…Electromagnetically induced transparency (EIT) [1,2] may be described almost like a magic tool: it makes opaque objects transparent and slows down light pulses to a crawl, even trapping these light pulses inside material objects. These make it a fun topic for public lectures, but more importantly in the last decades it has inspired a myriad of new applications, from precise atomic clocks and magnetometers [3,4] to quantum information tools [5][6][7][8]. In terms of its importance for atomic, molecular, and optical physics, the introduction of the concept of EIT may be compared with the demonstration of optical pumping several decades earlier [9].…”

A practical guide to electromagnetically induced transparency in atomic vapor