Small signal analysis for analogue optical links with arbitrary optical transfer function
نویسندگان
چکیده
منابع مشابه
Small signal analysis for analogue optical links with arbitrary optical transfer function - Electronics Letters
Introduction: The conversion matrix [1–3], connecting the optical intensity and phase variations at the output of an optical device with their corresponding input values, has been found useful in analysing laser and amplifier noise in analogue optical links and for computing the RF transfer function of various hybrid RF=optical systems. Previous works assumed the optical devices to be character...
متن کاملWDM pilot tone technique for analogue optical links - Electronics Letters
I OHIA. H., BANIO. N.. YAMADA. N., NOGIWA. S , and YANAGISAWA. Y.: 'Measuring eye diagram of 320Gbit/s optical signal by optical sampling using passively modclocked fibre laser', Eleciron. Len, 2001, 37, pp. 1541-1542 2 L L J . , HAXSRYDJ.. HEDBKVISZ Po., ANDREKSOH. P A . , and KNUDSEN. s.s.: '300-Gbit/s eye-diagram measurement by optical sampling using fiberbared parametic amplification', IEEE...
متن کاملOrthogonal basis for the optical transfer function.
We propose systems of orthogonal functions qn to represent optical transfer functions (OTF) characterized by including the diffraction-limited OTF as the first basis function q0=OTFperfect. To this end, we apply a powerful and rigorous theoretical framework based on applying the appropriate change of variables to well-known orthogonal systems. Here we depart fro...
متن کاملMobile Optical High-speed Data Links with Small Terminals
Mobile Optical Free-Space Communication (MFSO) downlinks from observation platforms in low earth orbit or in the atmosphere will allow nearly undetectable high-speed data links with small and low-power laser communication terminals. Several research institutions and companies are developing MFSO terminal technology for application in tactical and strategic communication scenarios as well as for...
متن کاملSignal Losses and Allowable Optical Received Power Prediction for Optical Wireless Communication Links
Infrared wireless communication possesses two main attractive advantages over its radio frequency counterpart, namely the abundance of unregulated spectrum in 1.3 μm–1.55 μm region and the ease with which the infrared radiation can be confined. Integrating microwave electronics and optics, it is possible to provide wideband communication services but it is well known that the signal level in an...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
ژورنال
عنوان ژورنال: Electronics Letters
سال: 2004
ISSN: 0013-5194
DOI: 10.1049/el:20040355