Title :
Generation and transmission of millimeter-wave data-modulated optical signals using an optical injection phase-lock loop
Author :
Johansson, L.A. ; Seeds, A.J.
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. Coll. London, UK
Abstract :
Generation and transmission of millimeter-wave data-modulated optical signals is presented using an optical injection phase-lock loop (OIPLL). Millimeter-wave signal generation is demonstrated with wide locking range, 30-GHz low phase noise level, -93 dBc/Hz, and a wide frequency tuning range, 4-60 GHz generation demonstrated using optical injection locking only, verified by using OIPLL in the 26-40 GHz range. The OIPLL is also used to transmit error-free 140-Mb/s amplitude shift keying and 68-Mb/s differential phase-shift keying (DPSK) modulated millimeter-wave signals over up to 65 km of uncompensated standard singlemode fiber. The DPSK system uses reference frequency modulation, eliminating the need for optical amplification.
Keywords :
amplitude shift keying; differential phase shift keying; frequency modulation; microwave links; microwave photonics; millimetre wave generation; optical fibre communication; optical modulation; optical phase locked loops; 140 Mbit/s; 4 to 60 GHz; 65 km; 68 Mbit/s; DPSK system; differential phase-shift keying modulated millimeter-wave signals; error-free amplitude shift keying modulated millimeter-wave signals; low phase noise level; millimeter-wave data-modulated optical signals; millimeter-wave signal generation; millimeter-wave signal transmission; optical injection locking; optical injection phase-lock loop; radio-over-fiber; reference frequency modulation; uncompensated standard singlemode fiber; wide frequency tuning range; wide locking range; Amplitude shift keying; Differential phase shift keying; Differential quadrature phase shift keying; Frequency; Injection-locked oscillators; Optical modulation; Optical noise; Optical tuning; Phase noise; Signal generators;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2003.808747
