Citation
Abstract
The fundamental performance limits and channel capacity of optical communications systems operating over the free-space channel will be examined using quantum detection theory. The performance of the optimum quantum receiver for on-ofi keying and optical binary phase-shift keying is first examined as a pure-state (no-noise) problem. The classical capacity of the binary symmetric channel for these two modulation schemes will be evaluated for the optimum quantum receiver by making use of the concept of quantum measurement states. The performance of M-ary pulse-position modulation, which requires a product state representation, will be evaluated along with the performance of certain dense signal sets. Performance comparisons with classical techniques show an improvement of over 5 dB in some cases when quantum detection is employed. As a further application of the quantum detection theory, the capacity of the binary channel with on-ofi keyed modulation and quantum detection is evaluated and shown to exceed the capacity obtained with classical photon counting.
Keywords
Details
- Volume
- 42-148
- Published
- February 15, 2002
- Pages
- 1–16
- File Size
- 224.9 KB