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Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi

Year 2013, Volume: 28 Issue: 1, 0 - , 21.02.2014

Abstract

Elektrik ark yöntemi, fiberin mekanik ortamda kaydırılırken elektriksel ark deşarjları ile yazıldığı, esnek, uygulaması kolay ve ekonomik bir tekniktir. Bu çalışmada, elektrik ark yöntemi ile uzun periyotlu fiber ızgarasının (LPFG) üretilmesi için deneysel bir düzenek önerilmiş ve üretime etki edebilecek tasarım değişkenleri araştırılmıştır. Tipik bir LPFG’ nin üretildiği ilk deneysel çalışmanın ardından, LPFG kullanarak erbiyum katkılı fiber yükselticinin (EDFA) kazanç spektrumunun düzleştirilmesi üzerine araştırmaya yön
verilmiştir. Araştırma sonuçları ve deneysel bulgular, elektrik ark tekniği ile üretilen LPFG’lerin EDFA’nın kazanç spektrumunu düzleştirici yönde olumlu etki sağlayabileceğini göstermiştir.

References

  • KAYNAKLAR (REFERENCES)
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  • -
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  • , 2005.
  • Navruz, I. ve Altuncu, A., “Optimization of Phase
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  • Rejection Filters”, IEEE J. of Lightwave
  • Technology, Cilt 26, No 14, 2155-2161, 2008.
  • Hill, K. O., Fujii, Y., Johnson, D.C. ve Kawasaki,
  • B.S., “Photosensitivity in optical fiber
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  • gratings fabricated by use of CO2 laser to carve
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  • Physics Letters, Cilt 89, No 15, 151105, 2006.
  • Wang, Y., Jin, W., Ju, J., Xuan, H., Ho, H.L, Xiao,
  • L. Ve Wang, D., “Long period gratings in air-core
  • photonic bandgap fibers," Optics Express, Cilt
  • , No 4, 2784-2790 2008.
  • Rego, G., Marques, P.V.S., Salgado, H.M. ve
  • Santos, J.L., "Simultaneous measurement of
  • temperature and strain based on arc-induced longperiod
  • fibre gratings", Electronics Letters, Cilt
  • , No 2, 60-62, 2005.
  • Rego, G., Santos, J.L. ve Saldago, H.M.,
  • "Polarization dependent loss of arc-induced longperiod
  • fibre gratings", Optics Communications,
  • Cilt 262, No 2, 152-156, 2006.
  • Petrovic, J.S., Dobb, H., Mezentsev, V.K., Kalli,
  • K., Webb, D.J. ve Bennion, I., "Sensitivity of
  • LPGsin PCFs fabricated by an electric arc to
  • temperature, strain, and external refractive
  • index”, IEEE J. of Lightwave Technology, Cilt
  • , No 5, 1306-1312, 2007.
  • Rego, G., Marques, P.V.S., Santos, J.L.ve
  • Saldago, H.M., “Estimation of the Fibre
  • Temperature during the Inscription of Arc-
  • Induced Gratings”, Optics Communications,
  • Cilt 259, No 2, 620-625, 2006.
  • Rego, G., Santos, J.L. ve Saldago, H.M.
  • “Refractive Index Measurement with Long-
  • Period Gratings Arc-Induced in Pure-Silica-Core
  • Fibres”, Optics Communications, Cilt 259, No
  • , 598-602, 2006.
  • Mihailov, S. J., Grobnic, D., Huimin, D.,
  • Smelser, C.W. ve Jes, B., "Femtosecond IR laser
  • fabrication of Bragg gratings in photonic crystal
  • fibers and tapers”, IEEE Photonics Technology
  • Letters, Cilt 18, No 17, 1837-1839, 2006.
  • Rego, G., "Polarization dependent loss of
  • mechanically induced long-period fibre gratings",
  • Optics Communications, Cilt 281, No 2, 255-
  • , 2008.
  • Lin, C.Y., Chern, G.W. ve Wang, L.A.,
  • "Periodical corrugated structure for forming
  • sampled fiber Bragg grating and long-period fiber
  • grating with tunable coupling strength",
  • Lightwave Technology, Cilt 19, No 8, 1212-
  • , 2001.
  • Von Bibra, M. L., Roberts, A. ve Canning J.,
  • "Fabrication of long-period fiber gratings by use
  • of focused ion-beam irradiation", Optics Letters,
  • Cilt 26, No 11, 765-767, 2001.
  • Chan, F.Y.M. ve Chiang, K.S., "Analysis of
  • Apodized Phase-Shifted Long-Period Fiber
  • Gratings”, Optics Communications, Cilt 244,
  • No 1-6, 233-243, 2005.
  • Guler, N.F., Navruz, I., "The Optical Grating
  • Based Solutions for Dispersion Compensation in
  • Optical Communication Systems", J. of the
  • Faculty of Engineering and Architecture of Gazi
  • University, Cilt 21, No 1, 129-136, 2006.
  • Rego, G. ve Ivanov O., “Investigation of the
  • mechanisms of formation of long-period gratings
  • arc-induced in pure-silica-core fibres”, Optics
  • Communications, Cilt 284, No 8, 2137-2140,
  • -
  • Zhang, A.P., Chen, X.W., Guan, Z.G., He, S.,
  • Tam, H.Y. ve Chung, W.H., "Optimization of
  • Step-Changed Long-Period Gratings for Gain-
  • Flattening of EDFAs", IEEE Photonics
  • Technology Letters, Cilt 17, No 1, 121-123,
  • -
Year 2013, Volume: 28 Issue: 1, 0 - , 21.02.2014

Abstract

References

  • KAYNAKLAR (REFERENCES)
  • Yu, Y., Lui, L., Tam, H. ve Chung, W., “Fiber-
  • Laser Based Wavelength Division Multiplexed
  • Fiber Bragg Grating Sensor Systems”, IEEE
  • Photonics Technology Letters, Cilt 13, No 7,
  • -704, 2001.
  • Chen, L.R., “Phase Shifted Long-Period Gratings
  • by Refractive Index Shifting”, Optics
  • Communications, Cilt 200, No1-6, 187-191,
  • -
  • Lin, C.Y., Wang, L.A. ve Chern, G.W.,
  • “Corrugated Long-Period Fiber Gratings as Strain,
  • Torsion, and Bending Sensors”, IEEE J. of
  • Lightwave Technology, Cilt 19, No 8, 1159-
  • , 2001.
  • Kalachev, A.I. ve Nikogosyan, D.N., “Long
  • Period Fiber Grating Fabrication by High Intensity
  • Femtosecond Pulses at 211nm”, IEEE J. of
  • Lightwave Technology, Cilt 23, No 8, 2568-
  • , 2005.
  • Navruz, I. ve Altuncu, A., “Optimization of Phase
  • Shifted Long-Period Fiber Gratings for Multiband
  • Rejection Filters”, IEEE J. of Lightwave
  • Technology, Cilt 26, No 14, 2155-2161, 2008.
  • Hill, K. O., Fujii, Y., Johnson, D.C. ve Kawasaki,
  • B.S., “Photosensitivity in optical fiber
  • waveguides: Application to reflection filter
  • fabrication”, Applied Physics Letters, Cilt 32,
  • No 10, 647-649, 1978.
  • Wang, Y.P., Wang, D. N., Jin,W., Rao,Y.J. ve
  • Peng, G.D., “Asymmetric long period fiber
  • gratings fabricated by use of CO2 laser to carve
  • periodic grooves on the optical fiber”, Applied
  • Physics Letters, Cilt 89, No 15, 151105, 2006.
  • Wang, Y., Jin, W., Ju, J., Xuan, H., Ho, H.L, Xiao,
  • L. Ve Wang, D., “Long period gratings in air-core
  • photonic bandgap fibers," Optics Express, Cilt
  • , No 4, 2784-2790 2008.
  • Rego, G., Marques, P.V.S., Salgado, H.M. ve
  • Santos, J.L., "Simultaneous measurement of
  • temperature and strain based on arc-induced longperiod
  • fibre gratings", Electronics Letters, Cilt
  • , No 2, 60-62, 2005.
  • Rego, G., Santos, J.L. ve Saldago, H.M.,
  • "Polarization dependent loss of arc-induced longperiod
  • fibre gratings", Optics Communications,
  • Cilt 262, No 2, 152-156, 2006.
  • Petrovic, J.S., Dobb, H., Mezentsev, V.K., Kalli,
  • K., Webb, D.J. ve Bennion, I., "Sensitivity of
  • LPGsin PCFs fabricated by an electric arc to
  • temperature, strain, and external refractive
  • index”, IEEE J. of Lightwave Technology, Cilt
  • , No 5, 1306-1312, 2007.
  • Rego, G., Marques, P.V.S., Santos, J.L.ve
  • Saldago, H.M., “Estimation of the Fibre
  • Temperature during the Inscription of Arc-
  • Induced Gratings”, Optics Communications,
  • Cilt 259, No 2, 620-625, 2006.
  • Rego, G., Santos, J.L. ve Saldago, H.M.
  • “Refractive Index Measurement with Long-
  • Period Gratings Arc-Induced in Pure-Silica-Core
  • Fibres”, Optics Communications, Cilt 259, No
  • , 598-602, 2006.
  • Mihailov, S. J., Grobnic, D., Huimin, D.,
  • Smelser, C.W. ve Jes, B., "Femtosecond IR laser
  • fabrication of Bragg gratings in photonic crystal
  • fibers and tapers”, IEEE Photonics Technology
  • Letters, Cilt 18, No 17, 1837-1839, 2006.
  • Rego, G., "Polarization dependent loss of
  • mechanically induced long-period fibre gratings",
  • Optics Communications, Cilt 281, No 2, 255-
  • , 2008.
  • Lin, C.Y., Chern, G.W. ve Wang, L.A.,
  • "Periodical corrugated structure for forming
  • sampled fiber Bragg grating and long-period fiber
  • grating with tunable coupling strength",
  • Lightwave Technology, Cilt 19, No 8, 1212-
  • , 2001.
  • Von Bibra, M. L., Roberts, A. ve Canning J.,
  • "Fabrication of long-period fiber gratings by use
  • of focused ion-beam irradiation", Optics Letters,
  • Cilt 26, No 11, 765-767, 2001.
  • Chan, F.Y.M. ve Chiang, K.S., "Analysis of
  • Apodized Phase-Shifted Long-Period Fiber
  • Gratings”, Optics Communications, Cilt 244,
  • No 1-6, 233-243, 2005.
  • Guler, N.F., Navruz, I., "The Optical Grating
  • Based Solutions for Dispersion Compensation in
  • Optical Communication Systems", J. of the
  • Faculty of Engineering and Architecture of Gazi
  • University, Cilt 21, No 1, 129-136, 2006.
  • Rego, G. ve Ivanov O., “Investigation of the
  • mechanisms of formation of long-period gratings
  • arc-induced in pure-silica-core fibres”, Optics
  • Communications, Cilt 284, No 8, 2137-2140,
  • -
  • Zhang, A.P., Chen, X.W., Guan, Z.G., He, S.,
  • Tam, H.Y. ve Chung, W.H., "Optimization of
  • Step-Changed Long-Period Gratings for Gain-
  • Flattening of EDFAs", IEEE Photonics
  • Technology Letters, Cilt 17, No 1, 121-123,
  • -
There are 102 citations in total.

Details

Primary Language Turkish
Journal Section Makaleler
Authors

Fırat Durak This is me

İsa Navruz This is me

Ahmet Altuncu This is me

Publication Date February 21, 2014
Submission Date February 21, 2014
Published in Issue Year 2013 Volume: 28 Issue: 1

Cite

APA Durak, F., Navruz, İ., & Altuncu, A. (2014). Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 28(1).
AMA Durak F, Navruz İ, Altuncu A. Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi. GUMMFD. February 2014;28(1).
Chicago Durak, Fırat, İsa Navruz, and Ahmet Altuncu. “Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 28, no. 1 (February 2014).
EndNote Durak F, Navruz İ, Altuncu A (February 1, 2014) Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 28 1
IEEE F. Durak, İ. Navruz, and A. Altuncu, “Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi”, GUMMFD, vol. 28, no. 1, 2014.
ISNAD Durak, Fırat et al. “Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 28/1 (February 2014).
JAMA Durak F, Navruz İ, Altuncu A. Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi. GUMMFD. 2014;28.
MLA Durak, Fırat et al. “Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, vol. 28, no. 1, 2014.
Vancouver Durak F, Navruz İ, Altuncu A. Elektrik Ark Tekniği İle Uzun Periyotlu Fıber Izgara Tasarımı Ve Üretimi. GUMMFD. 2014;28(1).