BibTex RIS Kaynak Göster

ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ

Yıl 2012, Cilt: 27 Sayı: 2, 0 - , 19.02.2013

Öz

Bu çalışmada, tek geçişli (SP) ve çift geçişli (DP) L band erbiyum katkılı fiber yükseltecin (L-EDFA) sıcaklığabağımlı kazanç değişimi incelenmiştir. Bu amaçla L-EDFA, 0 °C ile 60 °C arasındaki sıcaklık aralığında, -20dBm güçteki giriş sinyalleri ve 980 nm pompa lazerleri ile iki yönlü pompalanarak deneysel olarak incelenmiştir.Deneysel sonuçlar DP L-EDFA kazancının SP L-EDFA kazancından daha yüksek olduğunu göstermektedir.Ancak sonuçlar aynı zamanda DP L-EDFA’nın sıcaklık bağımlılığının SP L-EDFA’dan daha yüksek olduğunuda göstermektedir. Sonuç olarak, DP L-EDFA’nın 1568 nm - 1588 nm aralığında sıcaklıktan bağımsız olarakçalıştırılabileceği görülmüştür.

Kaynakça

  • Yamada, M., “Overview of wideband optical
  • fiber amplification technologies”, NTT
  • Technical Review, 2(12), 34, 2004.
  • Sakamoto, T., Mori, A., Masuda, H., Ono, H.,
  • “Wideband rare-earth-doped fiber amplification
  • technologies – Gain bandwidth expansion in the
  • C and L bands”, NTT Technical Review, 2(12),
  • , 2004.
  • Bouzid, B., Abdullah, M.K., Mahdi, M.A.,
  • “High-Gain Erbium-Doped Fiber Amplifier
  • Incorporating a Double-Pass Amplification
  • Technique as a Preamplifier”, Laser Physics,
  • (4), 460-463, 2008.
  • Liang, T.C., Hsu, S., “The L-band EDFA of High
  • Clamped Gain and Low Noise Figure
  • Implemented Using Fiber Bragg Grating and
  • Double-Pass Method”, Optics Comm., 281(5),
  • -1139, 2008.
  • Jamaludin, M. Z., Abdullah, M. K., Abdullah, F.,
  • Abas, A.F., MAhdi, M.A., Rahman, F., “A
  • Hybrid High-Gain Double-Pass Erbium-Doped
  • Fiber Amplifier with Dispersion Compensation
  • Feedback Loop”, Optics and Laser Technol.,
  • (2), 270-272, 2008.
  • Naji, A.W., Abidin, M. S. Z., Al-Mansoori, M.H.,
  • Faidz, A.R., Mahdi, M.A., “Experimental
  • Investigation of noise in Double-Pass Erbium-
  • Doped Fiber Amplifiers”, Laser Physics Lett.,
  • (2), 145-148, 2007.
  • Chang, C. L., Wang, L., Chiang, Y. J., “A Dual
  • Pumped Double-Pass L-Band EDFA with High
  • Gain and Low Noise”, Optics Comm., 267(1),
  • -112, 2006.
  • Altuncu, A., “Band Selection in Broadband Loop
  • ASE Source Using Seed Signal Injection”, IEEE
  • Photon. Technol. Lett., 18(9), 1043-1045, 2006.
  • Harun, S.W., Samsuri, N.M., Ahmad, H., “Gain-
  • Clamping Techniques in Two-Stage Double-Pass
  • L-Band EDFA”, Pramana-Journal of Physics,
  • (3), 539-545, 2006.
  • Yi, L.L., Zhan, L., Hu, W.S., Xia, Y.X., “Tunable
  • Gain-Clamped Double-Pass Erbium-Doped Fiber
  • Amplifier”, Optics Express, 14(2), 570-574,
  • -
  • Yi, L.L., Zhan, L., Taung, C.S., Luo, S.Y., Hu,
  • W.S., Su, Y.K., Xia, Y.X., Leng, L.F., “Low
  • Noise Figure All-Optical Gain-Clamped Parallel
  • C+L Band Erbium-Doped Fiber Amplifier Using
  • an Interleaver”, Optics Express, 13(12), 4519-
  • , 2005.
  • Ji, J.H., Zhan, L., Yi, L.L., Tang, C.C., Ye, Q.H.,
  • Xia, Y.X., “Low Noise-Figure Gain-Clamped L Band Double-Pass Erbium-Doped Fiber Ring
  • Lasing Amplifier with an Intereaver”, J. of
  • Lightwave Technol., 23(3), 1375-1379, 2005.
  • Samsuri, N.M., Harun, S.W., Ahmad, H.,
  • “Comparison of Performances Between Partial
  • Doublepass and full double-pass systems in Two-
  • Stage L-Band EDFA”, Laser Physics Lett.,
  • (12), 610-612, 2004.
  • Harun, S.W., Samsuri, N.M., Ahmad, H., “Gain
  • Enhancement in Partial Double-Pass L-Band
  • EDFA System Using a Band-Pass Filter”, Laser
  • Physics Lett., 2(1), 36-38, 2005.
  • Harun, S.W., Samsuri, N.M., Ahmad, H., “Gain
  • Clamping in Double-Pass L-Band EDFA Using a
  • Ring Resonator”, Microwave and Optical
  • Technol. Lett., 43(6), 484-486, 2004.
  • Naji, A.W., Abidin, M.S.Z., Kassir, A.M., Al-
  • Mansoori, M.H., Abdullah, M.K., Mahdi, M.A.,
  • “Trade-Off between Single and Double Pass
  • Amplification Schemes of 1480-nm Pumped
  • EDFA”, Microwave and Optical Technol.
  • Lett., 43(1), 38-40, 2004.
  • Yi, L.L., Zhan, L., Ji, J.H., Ye, Q.H.,, Xia, Y.X.,
  • “Improvement of gain and noise figure in doublepass
  • L-band EDFA by incorporating a fiber
  • Bragg grating”, IEEE Photon. Technol. Lett.,
  • (4), 1005-1007, 2004.
  • Harun, S.W., Ahmad, H., “Efficient and lownoise
  • gain flattened double-pass L-band erbiumdoped
  • fiber amplifier”, Microwave and Optical
  • Technol. Lett., 40(2), 112-114, 2004.
  • Harun, S.W., Poopalan, P., Ahmad, H., “Double
  • pass L-band erbium-doped fiber amplifier with
  • enhanced gain characteristics”, Indian Journal
  • of Physics, 77B(4), 435-437, 2003.
  • Harun, S.W., Poopalan, P., Ahmad, H., “Gain
  • enhancement in L-band EDFA through a doublepass
  • technique”, IEEE Photon.Technol. Lett.,
  • (3), 296-297, 2002.
  • Harun, S.W., Ahmad, H., “Gain Clamped Two-
  • Stage Double-Pass L-Band EDFA with a Single
  • Fibre Bragg Grating”, Chinese Physics Lett.,
  • (10), 1954-1957 2004.
  • Yucel, M., Goktas, H.H., “Design of gain
  • flattened ultra-wide band hybrid optical
  • amplifier”, J. Fac. Eng. Archit. Gazi Univ., 22,
  • –868, 2007.
  • Yucel, M., Goktas, H.H., “Gain flattening
  • configurations at the L band erbium doped fiber
  • amplifiers”, IEEE 15th Signal Process. and
  • Comm. App., 1–4, 2007.
  • Goktas, H.H., Yucel, M., “Gain flattening filter
  • optimization of the two stage C band erbium
  • doped fiber amplifiers (EDFA)”, J. Inst. Sci.
  • Technol. Sakarya Univ., 10, 10–13, 2006.
  • S., Dung, Chi, J.C., S., Wen, “Gain Flattening of
  • Erbium-doped Fibre Amplifier Using Fibre Bragg
  • Gratings”, Electronics Letters, 34(6), 555,
  • -
  • Choi, H. B., Oh, J. M., Lee, D., Ahn, S.J., Park,
  • B.S, Lee, S.B. “Simple and efficient L-Band
  • Erbium-Doped Fiber Amplifiers for WDM
  • Networks”, Optics Comm., 213, 63-66, 2002.
  • Mahdi, M. A., Sheih, S. J. “Gain-Flattened
  • Extended L-band EDFA with 43nm Bandwidth
  • Suitable for High Signal Powers”, Optics
  • Comm., 234, 229-233, 2004.
  • Mizuno, K., Nishi, Y., Mimura, Y., Lida, Y.,
  • Matsuura, H., Yoon, D., Aso, O., Yamamoto, T.,
  • Toratani, T., Ono, Y., Yo, A. “Development of
  • Etalon-Type Gain-Flattening Filter”, Furukawa
  • Review, 19, 53-58, 2000.
  • Yucel, M., Celebi, F. V., Goktas, H.H.,
  • “Temperature independent length optimization of
  • L-band EDFAs providing flat gain”, Optik, 122
  • (10), 872-876 2011.
  • Goktas, H.H., Yucel, M., “A fuzzy logic based
  • device for the determination of temperature
  • dependence of EDFAs”, Microwave and
  • Optical Technol. Lett., 50, 2331–2334, 2008.
  • Wysocki, P., Conti, N., Holcomb, D., “Simple
  • modeling approach for the temperature
  • dependence of the gain of erbium-doped fiber
  • amplifiers”, SPIE Photonics East, Proc.:
  • Optical Devices for Fiber Comm., 3847, 214,
  • -
  • Bolshtyansky, M., Wysocki, P., Conti, N.,
  • “Model of temperature dependence for gain
  • shape of erbium-doped fiber amplifier”, J. of
  • Lightwave Technol., 18 1533–1540, 2000.
  • Lolivier, L., Grillet, A., Roy, F., Hamoir, D.,
  • “DGE-based variable gain EDFA improves both
  • gain flatness and noise figure for a 70 ◦ C
  • temperature operating range”, Optical Fiber
  • Comm. Conf. OFC/NFOEC, 4, 3, 2005.
  • Nakaji, H., Ishizawa, Y., Ohmura, M., Shibata,
  • T., Inoue, A., Shige- matsu, M., “A temperatureinsensitive
  • erbium-doped fiber amplifier for
  • terrestrial wavelength-division-multiplexing
  • systems”, IEEE Photonics Technol. Lett., 15,
  • –1524, 2003.
  • Lee, W.J., Min, B., Ahn, S., Park, N.,
  • “Simulation for the effect of cascaded gaintemperature
  • dependence on 40 channel - 50
  • EDFA WDM link under temperature
  • fluctuations”, Lasers and Electro-Optics
  • CLEO/Pacific Rim’99, 3, 646–647, 1999.
  • Im, Y.E., Oh, K., Chang, S.H., Kim, K.,
  • DiGiovanni, D.J., “Reduction of temperaturedependent
  • gain in L-band EDFA using
  • antimony–aluminum codoped silica EDF”, IEEE
  • PhotonicsTechnol. Lett., 17, 1839–1841, 2005.
  • Desurvire, E., “Erbium-Doped Fiber Amplifier:
  • Principles and Applications”, John Wiley and
  • Sons. Inc., NewYork, 1994.
  • McCumber, D.E., “Theory of phonon-terminated
  • optical masers”, Phys. Rev., 134, A299–A305,
  • -
  • Miniscalco, W.J., Quimby, R. S., “General
  • procedure for the analysis of Er3+ cross
  • sections”, Opt. Lett.,16, 258–260, 1991.
  • Berkdemir, C., Özsoy, S., “The temperature
  • dependent performance analysis of EDFAs
  • pumped at 1480nm: a more accurate propagation
  • equation”, Optics Express 13, 5179–5185, 2005.
  • Lin, M.C., Chi, S., “The gain and optimal length
  • in the erbium-doped fiber amplifiers with 1480
  • nm pumping”, IEEE Photonics Technol. Lett.,
  • , 354–356, 1992.
  • Yucel, M., Goktas, H.H., Ozkaraca, O.,
  • “Temperature dependence of noise figure in the
  • erbium doped fiber amplifier”, J. Fac. Eng.
  • Archit. Gazi Univ., 25(3), 635–641, 2010.
  • Yucel, M., Goktas, H.H., “Determination of
  • minimum temperature coefficient of C band
  • EDFA”, Journal of Applied Sciences, 8(23),
  • -4467, 2008.
  • Hossain, N., Naji, A. W., Mishra, V., Abbou, F.
  • M., Al-Mansoori, M. H., Mahdi, M. A., Faidz, A.
  • R., “Modeling, Optimization, and Experimental
  • Evaluation Of Remotely Pumped Double-Pass
  • EDFA”, Microwave and Optical Technol.
  • Lett., 49(9), 2257-2261, 2007.
Yıl 2012, Cilt: 27 Sayı: 2, 0 - , 19.02.2013

Öz

Kaynakça

  • Yamada, M., “Overview of wideband optical
  • fiber amplification technologies”, NTT
  • Technical Review, 2(12), 34, 2004.
  • Sakamoto, T., Mori, A., Masuda, H., Ono, H.,
  • “Wideband rare-earth-doped fiber amplification
  • technologies – Gain bandwidth expansion in the
  • C and L bands”, NTT Technical Review, 2(12),
  • , 2004.
  • Bouzid, B., Abdullah, M.K., Mahdi, M.A.,
  • “High-Gain Erbium-Doped Fiber Amplifier
  • Incorporating a Double-Pass Amplification
  • Technique as a Preamplifier”, Laser Physics,
  • (4), 460-463, 2008.
  • Liang, T.C., Hsu, S., “The L-band EDFA of High
  • Clamped Gain and Low Noise Figure
  • Implemented Using Fiber Bragg Grating and
  • Double-Pass Method”, Optics Comm., 281(5),
  • -1139, 2008.
  • Jamaludin, M. Z., Abdullah, M. K., Abdullah, F.,
  • Abas, A.F., MAhdi, M.A., Rahman, F., “A
  • Hybrid High-Gain Double-Pass Erbium-Doped
  • Fiber Amplifier with Dispersion Compensation
  • Feedback Loop”, Optics and Laser Technol.,
  • (2), 270-272, 2008.
  • Naji, A.W., Abidin, M. S. Z., Al-Mansoori, M.H.,
  • Faidz, A.R., Mahdi, M.A., “Experimental
  • Investigation of noise in Double-Pass Erbium-
  • Doped Fiber Amplifiers”, Laser Physics Lett.,
  • (2), 145-148, 2007.
  • Chang, C. L., Wang, L., Chiang, Y. J., “A Dual
  • Pumped Double-Pass L-Band EDFA with High
  • Gain and Low Noise”, Optics Comm., 267(1),
  • -112, 2006.
  • Altuncu, A., “Band Selection in Broadband Loop
  • ASE Source Using Seed Signal Injection”, IEEE
  • Photon. Technol. Lett., 18(9), 1043-1045, 2006.
  • Harun, S.W., Samsuri, N.M., Ahmad, H., “Gain-
  • Clamping Techniques in Two-Stage Double-Pass
  • L-Band EDFA”, Pramana-Journal of Physics,
  • (3), 539-545, 2006.
  • Yi, L.L., Zhan, L., Hu, W.S., Xia, Y.X., “Tunable
  • Gain-Clamped Double-Pass Erbium-Doped Fiber
  • Amplifier”, Optics Express, 14(2), 570-574,
  • -
  • Yi, L.L., Zhan, L., Taung, C.S., Luo, S.Y., Hu,
  • W.S., Su, Y.K., Xia, Y.X., Leng, L.F., “Low
  • Noise Figure All-Optical Gain-Clamped Parallel
  • C+L Band Erbium-Doped Fiber Amplifier Using
  • an Interleaver”, Optics Express, 13(12), 4519-
  • , 2005.
  • Ji, J.H., Zhan, L., Yi, L.L., Tang, C.C., Ye, Q.H.,
  • Xia, Y.X., “Low Noise-Figure Gain-Clamped L Band Double-Pass Erbium-Doped Fiber Ring
  • Lasing Amplifier with an Intereaver”, J. of
  • Lightwave Technol., 23(3), 1375-1379, 2005.
  • Samsuri, N.M., Harun, S.W., Ahmad, H.,
  • “Comparison of Performances Between Partial
  • Doublepass and full double-pass systems in Two-
  • Stage L-Band EDFA”, Laser Physics Lett.,
  • (12), 610-612, 2004.
  • Harun, S.W., Samsuri, N.M., Ahmad, H., “Gain
  • Enhancement in Partial Double-Pass L-Band
  • EDFA System Using a Band-Pass Filter”, Laser
  • Physics Lett., 2(1), 36-38, 2005.
  • Harun, S.W., Samsuri, N.M., Ahmad, H., “Gain
  • Clamping in Double-Pass L-Band EDFA Using a
  • Ring Resonator”, Microwave and Optical
  • Technol. Lett., 43(6), 484-486, 2004.
  • Naji, A.W., Abidin, M.S.Z., Kassir, A.M., Al-
  • Mansoori, M.H., Abdullah, M.K., Mahdi, M.A.,
  • “Trade-Off between Single and Double Pass
  • Amplification Schemes of 1480-nm Pumped
  • EDFA”, Microwave and Optical Technol.
  • Lett., 43(1), 38-40, 2004.
  • Yi, L.L., Zhan, L., Ji, J.H., Ye, Q.H.,, Xia, Y.X.,
  • “Improvement of gain and noise figure in doublepass
  • L-band EDFA by incorporating a fiber
  • Bragg grating”, IEEE Photon. Technol. Lett.,
  • (4), 1005-1007, 2004.
  • Harun, S.W., Ahmad, H., “Efficient and lownoise
  • gain flattened double-pass L-band erbiumdoped
  • fiber amplifier”, Microwave and Optical
  • Technol. Lett., 40(2), 112-114, 2004.
  • Harun, S.W., Poopalan, P., Ahmad, H., “Double
  • pass L-band erbium-doped fiber amplifier with
  • enhanced gain characteristics”, Indian Journal
  • of Physics, 77B(4), 435-437, 2003.
  • Harun, S.W., Poopalan, P., Ahmad, H., “Gain
  • enhancement in L-band EDFA through a doublepass
  • technique”, IEEE Photon.Technol. Lett.,
  • (3), 296-297, 2002.
  • Harun, S.W., Ahmad, H., “Gain Clamped Two-
  • Stage Double-Pass L-Band EDFA with a Single
  • Fibre Bragg Grating”, Chinese Physics Lett.,
  • (10), 1954-1957 2004.
  • Yucel, M., Goktas, H.H., “Design of gain
  • flattened ultra-wide band hybrid optical
  • amplifier”, J. Fac. Eng. Archit. Gazi Univ., 22,
  • –868, 2007.
  • Yucel, M., Goktas, H.H., “Gain flattening
  • configurations at the L band erbium doped fiber
  • amplifiers”, IEEE 15th Signal Process. and
  • Comm. App., 1–4, 2007.
  • Goktas, H.H., Yucel, M., “Gain flattening filter
  • optimization of the two stage C band erbium
  • doped fiber amplifiers (EDFA)”, J. Inst. Sci.
  • Technol. Sakarya Univ., 10, 10–13, 2006.
  • S., Dung, Chi, J.C., S., Wen, “Gain Flattening of
  • Erbium-doped Fibre Amplifier Using Fibre Bragg
  • Gratings”, Electronics Letters, 34(6), 555,
  • -
  • Choi, H. B., Oh, J. M., Lee, D., Ahn, S.J., Park,
  • B.S, Lee, S.B. “Simple and efficient L-Band
  • Erbium-Doped Fiber Amplifiers for WDM
  • Networks”, Optics Comm., 213, 63-66, 2002.
  • Mahdi, M. A., Sheih, S. J. “Gain-Flattened
  • Extended L-band EDFA with 43nm Bandwidth
  • Suitable for High Signal Powers”, Optics
  • Comm., 234, 229-233, 2004.
  • Mizuno, K., Nishi, Y., Mimura, Y., Lida, Y.,
  • Matsuura, H., Yoon, D., Aso, O., Yamamoto, T.,
  • Toratani, T., Ono, Y., Yo, A. “Development of
  • Etalon-Type Gain-Flattening Filter”, Furukawa
  • Review, 19, 53-58, 2000.
  • Yucel, M., Celebi, F. V., Goktas, H.H.,
  • “Temperature independent length optimization of
  • L-band EDFAs providing flat gain”, Optik, 122
  • (10), 872-876 2011.
  • Goktas, H.H., Yucel, M., “A fuzzy logic based
  • device for the determination of temperature
  • dependence of EDFAs”, Microwave and
  • Optical Technol. Lett., 50, 2331–2334, 2008.
  • Wysocki, P., Conti, N., Holcomb, D., “Simple
  • modeling approach for the temperature
  • dependence of the gain of erbium-doped fiber
  • amplifiers”, SPIE Photonics East, Proc.:
  • Optical Devices for Fiber Comm., 3847, 214,
  • -
  • Bolshtyansky, M., Wysocki, P., Conti, N.,
  • “Model of temperature dependence for gain
  • shape of erbium-doped fiber amplifier”, J. of
  • Lightwave Technol., 18 1533–1540, 2000.
  • Lolivier, L., Grillet, A., Roy, F., Hamoir, D.,
  • “DGE-based variable gain EDFA improves both
  • gain flatness and noise figure for a 70 ◦ C
  • temperature operating range”, Optical Fiber
  • Comm. Conf. OFC/NFOEC, 4, 3, 2005.
  • Nakaji, H., Ishizawa, Y., Ohmura, M., Shibata,
  • T., Inoue, A., Shige- matsu, M., “A temperatureinsensitive
  • erbium-doped fiber amplifier for
  • terrestrial wavelength-division-multiplexing
  • systems”, IEEE Photonics Technol. Lett., 15,
  • –1524, 2003.
  • Lee, W.J., Min, B., Ahn, S., Park, N.,
  • “Simulation for the effect of cascaded gaintemperature
  • dependence on 40 channel - 50
  • EDFA WDM link under temperature
  • fluctuations”, Lasers and Electro-Optics
  • CLEO/Pacific Rim’99, 3, 646–647, 1999.
  • Im, Y.E., Oh, K., Chang, S.H., Kim, K.,
  • DiGiovanni, D.J., “Reduction of temperaturedependent
  • gain in L-band EDFA using
  • antimony–aluminum codoped silica EDF”, IEEE
  • PhotonicsTechnol. Lett., 17, 1839–1841, 2005.
  • Desurvire, E., “Erbium-Doped Fiber Amplifier:
  • Principles and Applications”, John Wiley and
  • Sons. Inc., NewYork, 1994.
  • McCumber, D.E., “Theory of phonon-terminated
  • optical masers”, Phys. Rev., 134, A299–A305,
  • -
  • Miniscalco, W.J., Quimby, R. S., “General
  • procedure for the analysis of Er3+ cross
  • sections”, Opt. Lett.,16, 258–260, 1991.
  • Berkdemir, C., Özsoy, S., “The temperature
  • dependent performance analysis of EDFAs
  • pumped at 1480nm: a more accurate propagation
  • equation”, Optics Express 13, 5179–5185, 2005.
  • Lin, M.C., Chi, S., “The gain and optimal length
  • in the erbium-doped fiber amplifiers with 1480
  • nm pumping”, IEEE Photonics Technol. Lett.,
  • , 354–356, 1992.
  • Yucel, M., Goktas, H.H., Ozkaraca, O.,
  • “Temperature dependence of noise figure in the
  • erbium doped fiber amplifier”, J. Fac. Eng.
  • Archit. Gazi Univ., 25(3), 635–641, 2010.
  • Yucel, M., Goktas, H.H., “Determination of
  • minimum temperature coefficient of C band
  • EDFA”, Journal of Applied Sciences, 8(23),
  • -4467, 2008.
  • Hossain, N., Naji, A. W., Mishra, V., Abbou, F.
  • M., Al-Mansoori, M. H., Mahdi, M. A., Faidz, A.
  • R., “Modeling, Optimization, and Experimental
  • Evaluation Of Remotely Pumped Double-Pass
  • EDFA”, Microwave and Optical Technol.
  • Lett., 49(9), 2257-2261, 2007.
Toplam 194 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Murat Yücel Bu kişi benim

H. Haldun Göktaş Bu kişi benim

Yayımlanma Tarihi 19 Şubat 2013
Gönderilme Tarihi 19 Şubat 2013
Yayımlandığı Sayı Yıl 2012 Cilt: 27 Sayı: 2

Kaynak Göster

APA Yücel, M., & Göktaş, H. H. (2013). ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 27(2).
AMA Yücel M, Göktaş HH. ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ. GUMMFD. Mart 2013;27(2).
Chicago Yücel, Murat, ve H. Haldun Göktaş. “ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 27, sy. 2 (Mart 2013).
EndNote Yücel M, Göktaş HH (01 Mart 2013) ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 27 2
IEEE M. Yücel ve H. H. Göktaş, “ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ”, GUMMFD, c. 27, sy. 2, 2013.
ISNAD Yücel, Murat - Göktaş, H. Haldun. “ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 27/2 (Mart 2013).
JAMA Yücel M, Göktaş HH. ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ. GUMMFD. 2013;27.
MLA Yücel, Murat ve H. Haldun Göktaş. “ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, c. 27, sy. 2, 2013.
Vancouver Yücel M, Göktaş HH. ÇİFT GEÇİŞLİ L BAND ERBİYUM KATKILI FİBER YÜKSELTECİN SICAKLIK BAĞIMLILIĞININ İNCELENMESİ. GUMMFD. 2013;27(2).