Quantum digital spiral imaging
... We employ the experimental set-up shown in Figure 2 to demonstrate the non-local decomposition of non-integer phase vortices. A collimated 355-nm beam pumps a 5-mm long b-barium borate (BBO) crystal, where a degenerate 710 nm signal and idler photons are produced in pairs via type-I collinear SPDC a ...
... We employ the experimental set-up shown in Figure 2 to demonstrate the non-local decomposition of non-integer phase vortices. A collimated 355-nm beam pumps a 5-mm long b-barium borate (BBO) crystal, where a degenerate 710 nm signal and idler photons are produced in pairs via type-I collinear SPDC a ...
FPGA emulation of quantum circuits
... algorithms [5]. Many quantum algorithms outperform their classical counterparts through parallelism that is impossible in classical computing. Such algorithms use physical effects like entanglement and super-position to achieve the speedup. These effects are hard to replicate at large scale and lead ...
... algorithms [5]. Many quantum algorithms outperform their classical counterparts through parallelism that is impossible in classical computing. Such algorithms use physical effects like entanglement and super-position to achieve the speedup. These effects are hard to replicate at large scale and lead ...
CSE 599d - Quantum Computing Introduction and Basics of
... Digital machines dominate our everyday life to such a degree that it is hard to imagine a time when the idea of a programmable computer was but a twinkle in a few oddball’s eyes. But that’s the way it was, for example, way back in 1936 when Alan Turing wrote his famous paper “On computable numbers, ...
... Digital machines dominate our everyday life to such a degree that it is hard to imagine a time when the idea of a programmable computer was but a twinkle in a few oddball’s eyes. But that’s the way it was, for example, way back in 1936 when Alan Turing wrote his famous paper “On computable numbers, ...
