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Optical quantum devices requirea steady stream of single photons, unlike classical light wherephotons are emitted unpredictably. To realize new technologies suchas secure quantum communication, and ensure they remain secure from eavesdroppers, we need to convert betweenclassical and quantum light. To do this, we can exploit the properties ofa different quantum particle, the electron If we trap an electron in a box by tightlyconfining it in all three dimensions, discrete energy levels form. A laser drives the electron into an excited state, leaving behind a hole in theground state. Sometime later the electron returns to the ground state, recombining with the holeand emitting a single photon. Through this process, the classical light of the laser is convertedto quantum light in the form of a single photon. So how do we make this box? All materialsare made up of a lattice of atoms, We use compound semiconductors whichcontain mixtures of different atoms. A process called