Abstract :
The problem of communication using optical coherent quantum states, in the presence of background radiation, is considered. Two modulation formats are studied, on-off keying (OOK) and M-ary pulse-position modulation (PPM). The bit-error-rate performance improvement due to low-density parity-check coding is reported. For OOK, it is assumed that the coherent state signal has a random phase. For an average number of noise photons N = 0.1, the required number of signal photons per information bit is six in the case of coded quantum OOK. For the same level of noise (N = 0.1) and assuming that signal phase is known, coded 16-ary PPM requires only 1.21 of signal photons per information bit.
Keywords :
quantum communication; quantum optics; LDPC-coded optical coherent state quantum communications; M-ary pulse-position modulation; bit-error-rate performance; low-density parity-check coding; noise photons; on-off keying; Eigenvalues and eigenfunctions; Mechanical variables measurement; Optical fiber communication; Optical modulation; Optical noise; Optical pulses; Optical receivers; Parity check codes; Pulse modulation; Quantum mechanics; Coherent states; low-density parity-check (LDPC) codes; optical communications; quantum receiver;
