Abstract
Fibre optics is over 30 years old and in its relatively short history has achieved astonishing technological maturity. The techniques which we currently see in the development laboratory and in real applications are, almost without exception, based upon concepts enunciated in the 1960s and 1970s. The suggestion that their could be “advanced” optical fibre optoelectronics implies that equally profound new ideas are currently emerging. This paper speculates on the somewhat unusual uses of fibre optics which are currently in the research laboratories. Whether these will lead to anything so profound as the fibre laser or the idea of zero dispersion is probably doubtful but the area is still buoyant and energetic embracing thoughts ranging from the scanning tunnelling microscope through time reversal systems.
Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Reference
Kao, C.K. and Hockham G.A. (1966) Dielectric fibre surface waveguides for optical frequencies, Proc. lEE 133, p1151.
Weds, A. (Sept. 1966) Propagation de la lumiere coherente dans les fibre optiques, L’Onde Electronique 474, p967–980.
Koester, C.J. and Snitzer, E (1964) Amplification in a fiber laser, Applied Optics 3,p1182–1186.
Dyott, R.B. and Stern J.R. (Feb.1971) Group delay in glass fibre waveguides, Electronics Letters 7, 3, p82.
Zakharov, V.E. and Shabat, A.B. (1972) Soviet Physics, JETP 34, p62.
Jin, W., Stewart, G., Culshaw, B., Murray, S., Pinchbech, D. (1993) Absorption measurement of methane gas, Optics Letters 18, 16, p1364.
Dyott, R.B., Cozens, J.R. and Morris, D.G. (June 1979) Preservation of polarisation in optical fibres with elliptical cores, Electronics Letters 15, 13, p380.
Berkey, G.E. (Jan.1992) Developments in elliptical core polarisation maintaining fibre, Proc OFS(8), p121, Monterey Ca (IEEE).
Dyott, R.B. (1994) Composition of LP modes in elliptically cored fibre, Electronics Letters 30, 9, p728.
Vengsarkar, A.M., Michie, W.C., Jankovic, I, Culshaw, B., Claus, R.O. (1994) Fibre optic dual technique for simultaneous measurement of strain and temperature, IEEE J-LT 12, 1, p170.
Sadowski, R.W., Digonnet, M.J.F., Pantell, R.H. and Shaw, H.J. (Sept.1993) Sub microsecond and optical switching in neodymium doped fibres, Proc. SPIE 2073, p166, Boston.
Park, H.G., Pohalski, C.C. and Kim, B.Y. (1988) Optical Kerr switch using elliptical core two mode fiber, Optics Letters 13, 9, p776.
Chen, R.T. (Jan. 1994) Guided wave optoelectronic interconnects: their potential and future trends, Proc. SPIE 2153, p196, Los Angeles.
Mackenzie, F., Payne, R. and Rush, J.D. (Jan.1994) D-fibre optical backplane interconnect, Proc. SPIE 2153, p218, Los Angeles.
Nakagaisa, K., Kowalewski, T., Phelps, C.W., Rook, D.L. and Krchnavck, R.R. (Jan.1994) Optical channel waveguides based upon photo-polymerizable di/tri acrylates, Proc. SPIE 2153, p208, Los Angeles.
Johnstone, J.S., Private communication ~1980.
Yoshino, T., Takahashi, Y., Tamura, H. and Ohde, N. (Sept.1993) Some special fibres for distributed sensing of uv light, electric field or strain, Proc. SPIE 2071, p242, Boston.
Agrawal, G.P. (1989) Nonlinear fiber optics, Academic Press, Boston.
Dakin, J.P., Pratt, D.J., Bibby, G.W. and Ross, J.N. (1985) Temperature distribution measurement using Raman ratio thermometry, Proc. SPIE 566, p249
Shimizu, K., Horiguchi, T., Koyamada, Y. and Kurashima, T. (to be published 1994) Measurement of distributed strain and temperature using Brillouin scatter, IEEE JLT (also in Proc. OFS(10) Glasgow 1994 (SPIE)).
Dyott, R.B., Bello, J. (Aug. 1983) Polarisation holding directional coupler made from elliptically cored fibre having a D section, Electronic Letters 19, p601.
Bergh, R.A., Culshaw, B., Cutler, C.C., Lefevre, H.C. and Shaw, H.J. (1982) Compensation of the optical Kerr effect in fibre optic gyroscopes, Optics Letters 7, p282.
Cokgor, I., Handerek, V.A. and Rogers, A.J. (May 1993) A practical Kerr effect distributed optical fibre sensor with polarisation diversity detection, Proc.OFS(9), p79, Florence, (WOE, Firenze).
Ohtsu, N. (1994) Progress of high resolution photon tunnelling microscope with a nanometric fibre probe, Proc. OFS(10), Glasgow (SPIE).
Collins, G.P. (May 1994) Near field optical microscopes take a close look at individual molecules, Physics Today, p17.
Bergh, R.A., Cutler, C.L. and Shaw, H.J. (1980) Single mode fibre optic directional coupler, Electronic Letters 18, p260.
Johnstone, W., McCallion, K., Langford, N. and Gloag, A. (1994) Electrooptically tunable fibre lasers for fibre optic sensing systems, Proc. OFS(10),Glasgow (SPIE).
Moodie, D. and Johnstone, W. (1993) Wavelength tunability of components based on evanescent coupling, Optics Letters 18, 2, p1025.
Yariv, A. (1978) Phase conjugate optics and real time holography, IEEE JQE-14, 650.
Peffer, D.M. (Jan. 1986) Applications of optical phase conjugation, Scientific American 56, 254.
Martinelli, M. (1994) Time reversal for the polarisation state in optical fibre circuits, Proc. OFS(10), Glasgow (SPIE).
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1995 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Culshaw, B. (1995). Advanced Optical Fibre Optoelectronics. In: Soares, O.D.D. (eds) Trends in Optical Fibre Metrology and Standards. NATO ASI Series, vol 285. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-0035-9_36
Download citation
DOI: https://doi.org/10.1007/978-94-011-0035-9_36
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-4020-4
Online ISBN: 978-94-011-0035-9
eBook Packages: Springer Book Archive