We present a simple design rule for a passive temperature-compensating optical package. We also present experimentally that a package fabricated by using the design rule compensates the temperature dependence of the resonant wavelength of an optical long period fiber grating by varying the strain inside the fiber, The package fabricated in this work consists of two pieced of brass tube, 10 mm long, and a piece of nylon rod, 45.4 mm long. It is shown that the package can compensate the temperature-induce wavelength shifts of the long period grating to a range of 6.8 pm/<TEX>$^{\circ}C$</TEX>, compared with 0..48 nm/<TEX>$^{\circ}C$</TEX> for an uncompensated grating. The reduced strength of the fiber caused by exposure to ultraviolet limits the performance of the package to the range operating temperature form -3 <TEX>$^{\circ}C$</TEX> to 7<TEX>$0^{\circ}C$</TEX>.

© 1999 Optical Society of Korea

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Applied Optics

• G. W. Yoffe, P. A. Krug, F. Ouellette, D. Thorncraft, Appl. Opt. 34, 6859 (1995) [CrossRef]

Electronics Letters

• J. Stone and L. W. Stulz, Electron. Lett. 29, 1608 (1993) [CrossRef]
• A. S. Kurkov, M. Douay, O. Duhem, B. Leleu, J.F. Henninot, F.F. Bayon, and L. Rivoallan, Electron. Lett. 33, 616 (1997) [CrossRef]
• R. Feced, M. P. RoeEdwards, S. E. Kanellopoulos, N.H. Taylor, and V. A. Handerek, Electron. Lett. 33, 157 (1997) [CrossRef]

Lightwave Technology, Journal of

• K. O. Hill and G. Meltz, J. Lightwave Tech. 15, 1263 (1997) [CrossRef]
• A. D. Kersey, M. A. Davis, H. J. Patrick, M. LeBlanc, K. P. Koo, J. Lightwave Tech. 15, 1442 (1997) [CrossRef]
• A.M. Vengsarkar, P. J. Lemaire, J. B. Judkins, V. Bhatia, T. Erdogan, and J. E. Sipe, J. Lightwave Tech. 14, 58 (1996) [CrossRef]

Optical Fiber Communication Coference '98, Technical digest

• P. Chen, C. Huang, X. Lin, in Optical Fiber Communication Conference "98, Technical digest, 335

Optical Fiber Communication Conference '95, Technical digest

• G. W. Yoffe, P. A. Krug, F. Ouellette, D. Thorncraft, in Optical Fiber Communication Conference "95, Technical digest, 134

Optics Letters

• X. J. Gu, Opt. Lett. 23, 509 (1998) [CrossRef]

Photon Technol. Lett.

• H. J. Patrick, G. M. Williams, A.D. Kersey, J. R. Pedrazzani, and A. M. Vengsarkar, IEEE Photon. Tech. Lett. 8, 1223 (1997) [CrossRef]

Photonics Technology Letters, IEEE

• P. F. Wysocki, J. B. Judkins, R. P. Espindola, M. Andrejco, and A. M. Vengsarkar, IEEE Photon. Tech. Lett. 9, 1343 (1997) [CrossRef]
• B. Ortega, L. Dong, W. F. Liu, J. P. de Sandro, L. Reekie, S. I. Tsypina, V. N. Bagratashvili and R. I.Laming, IEEE Photon. Tech. Lett. 9, 1371 (1997) [CrossRef]

Proc. 11th Optical Fiber Sensors '96

• V. Bhatia, R. D"Alberto, K. A. Murphy, and R. O. Claus, Proc. 11th Optical Fiber Sensors "96, 360 (1996)

Proc. 13th Optical Fiber Sensor '99

• S. W. James, C. Y. Wei, C. C. Ye, R. P. Tatam and P. E. Irving, Proc. 13th Optical Fiber Sensors "99, 38 (1999)

Proc. SPIE

• W. Zhao and R. O. Claus, Proc. SPIE 3330, 231 (1998) [CrossRef]
• V. Bhatia, T. D"Alberto, N. Zabaronick, and R. O. Claus, Proc. SPIE 3402, 194 (1998)

Other

• D. R. Lide, Handbook of Chemistry and Physics, (CRC Boca Raton, Fla., 73rd ed., 1992)

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