Laser & Optoelectronics Progress, Volume. 50, Issue 8, 80023(2013)
Application of Fiber Dispersion in All Optical Data Processing
[1] [1] Guoliang Li, Xuezhe Zheng, Jon Lexau, et al.. Ultralow-power high-performance Si photonic transmitter [C]. OFC, 2010. OMI2.
[2] [2] Jian Shuisheng. Photon latest technologies will develop the basis of low-carbon information society of human beings [J]. Optical Communication Technology, 2011, 35(8): 1-5.
[3] [3] Chi Jianfeng, Li Tangjun, Jia Nan, et al.. High-precision chromatic dispersion management completes 160 Gb/s OTDM signal 100-km stable error-free transmission [J]. Chinese J Lasers, 2011, 38(1): 0105003.
[4] [4] Tan Zhongwei, Chen Zhiwei, Zhang Xiaoxing, et al.. The time-stretch analog-to-digital conversion based on chirped fiber Bragg grating [J]. Acta Optica Sinica, 2012, 32(s1): s106001.
[5] [5] Yang Xiufeng, Peng Lei, Tong Zhengrong, et al.. Design of tunable bandpass photonic microwave filter based on multi-wavelength fiber laser[J]. Acta Optica Sinica, 2012, 32(2): 0206004.
[6] [6] A L Gaeta, M A Foster, R Salem, et al.. Ultrafast waveform compression using a time-domain telescope [J]. Nature Photonics, 2009, 3(10): 581-585.
[7] [7] Ali M Fard, Shalabh Gupta, Bahram Jalali. Photonic time-stretch digitizer and its extension to real-time spectroscopy and imaging [J]. Laser & Photonics Reviews, 2013, 7(2): 207-263.
[8] [8] K Goda, K K Tsia, B Jalali. Serial time-encoded amplified imaging for real-time observation of fast dynamic phenomena [J]. Nature, 2009, 458(30): 1145-1149.
[9] [9] H Xia, C Wang, S Blais, et al.. Ultrafast and precise interrogation of fiber Bragg grating sensor based on wavelength-to-time mapping incorporating higher order dispersion [J]. J Lightwave Technol, 2010, 28(3): 254-261.
[10] [10] M Ferrera, Y Park, L Razzari, et al.. On-chip CMOS-compatible all-optical integrator [J]. Nature Commun, 2010, 1: 29.
[11] [11] Y Park, J Azana. Optical signal processors based on a time-spectrum convolution [J]. Opt Lett, 2010, 35(6): 796-798.
[12] [12] S H Kim, K Goda, A Fard, et al.. Optical time-domain analog pattern correlator for high-speed real-time image recognition [J]. Opt Lett, 2011, 36(2): 220-222.
[13] [13] Gerd Keiser. Optical Fiber Communications [M]. Noida: McGraw-Hill Education (India) Pvt Limited, 2008.
[14] [14] Cao Wenhua, Wang Yong, Liu Songhao. Dispersion and nonlinearity compensation in optical fiber communication systems by optical phase conjugation incorporated pulse prechirp[J]. Acta Optica Sinica, 2012, 32(9): 0906005.
[15] [15] Tan Zhongwei, Ning Tigang, Liu Yan, et al.. Application of dispersion compensator based on chirped fiber gratings in ultra long-haul DWDM system [J]. Acta Physcia Sinica, 2006, 55(6): 2799-2803.
[16] [16] B H Kolner, M Nazarathy. Temporal imaging with a time lens [J]. Opt Lett, 1989, 14(12): 630-632.
[17] [17] N K Berger, B Levit, S Atkins, et al.. Time-lens-based spectral analysis of optical pulses by electrooptic phase modulation [J]. Electron Lett, 2000, 36(19): 1644-1646.
[18] [18] C V Bennett, B H Kolner. Upconversion time microscope demonstrating 103× magnification of femtosecond waveforms [J]. Opt Lett, 1999, 24(11): 783-785.
[19] [19] L K H Mouradian, F Louradour, V Messager, et al.. Spectro-temporal imaging of femtosecond events [J]. IEEE J Quantum Electron, 2000, 36(7): 795-801.
[20] [20] M A Foster, Reza Salem, David F Geraghty. Silicon-chip-based ultrafast optical oscilloscope [J]. Nature, 2008, 456(7218): 81-84.
[21] [21] Li Bo, Tan Zhongwei, Zhang Xiaoxing. The simulation and analysis of time lens using cross phase modulation and four-wave mixing [J]. Acta Physica Sinica, 2012, 61(1): 014203.
[22] [22] José Azaa, Naum K. Berger, Boris Levit, et al.. Simplified temporal imaging systems for optical waveforms [J]. IEEE Photon Technol Lett, 2005, 17(1): 94-96.
[23] [23] José Azaa, Miguel A Muriel. Real-time optical spectrum analysis based on the time-space duality in chirped fiber gratings [J]. IEEE J Quantum Electron, 2000, 36(5): 517-526.
[24] [24] Yoshitomo Okawachi, Reza Salem, Adrea R Johnson, et al.. Asynchronous single-shot optical sampling of high-repetition-rate signals using temporal magnification [C]. OFC, 2013, OTu2D.4.
[25] [25] José Azaa, Naum K Berger, Boris Levit, et al.. Time-to-frequency conversion of optical waveforms using a single time lens system [J]. Physica Scripta, 2005, 2005(T118): 115-117.
[26] [26] Zhongwei Tan, Yanling Chang, Wenhua Ren, et al.. Temporal-spectral Imaging of optical pulses using time lens [C]. SPIE, 2008, 7135: 71352E.
[27] [27] Jacob S Levy Alexander Gondarenko, Mark A Foster, Amy C Turner-Foster, et al.. CMOS-compatible multiple-wavelength oscillator for on-chip optical interconnects [J]. Nature Photonics, 2010, 4(1): 37-40.
[28] [28] M. Fridman, Alessandro Farsi, Yoshitomo Okawachi, et al.. Demonstration of temporal cloaking [J]. Nature, 2012, 481(7379): 62-65.
[29] [29] George C Valley. Photonic analog-to-digital converters [J]. Opt Express, 2007, 15(5): 1955-1982.
[30] [30] K Goda, B Jalali. Dispersive Fourier transformation for fast continuous single-shot measurements [J]. Nature Photonics, 2013, 7(2): 102-112.
[31] [31] Y Han, B Jalali. Photonic time-stretched analog-to-digital converter: fundamental concepts and practical con-siderations [J]. J Lightwave Technol, 2003, 21(2): 3085-3103.
[32] [32] A M Fard, B Buckley, S Zlatanovic, et al.. All-optical time-stretch digitizer [J]. Appl Phys Lett, 2012, 101(5): 051113.
[33] [33] M H Asghari, B Jalali. Stereopsis-inspired time-stretched amplified real-time spectrometer (STARS) [J]. IEEE Photon Journal, 2012, 4(5): 1693-1701.
[34] [34] Eric D Diebold, Nick K Hon, Zhongwei Tan, et al.. Giant tunable optical dispersion using chromo-modal excitation of a multimode waveguide [J]. Opt. Express, 2011, 19(24): 23809-23817.
[35] [35] M L Filograno, P Corredera Guillen, A Rodriguez-Barrios, et al.. Real-time monitoring of railway traffic using fiber Bragg grating sensors [J]. IEEE Sensors Journal, 2012, 12, (1): 85-92.
[36] [36] L S Yan, Z T Zhang, P Wang, et al.. Fiber sensors for strain measurements and axle counting in high-speed railway applications [J]. IEEE Sensors Journal, 2011, 11(7): 1587-1594.
[37] [37] H Y Fu, H L Liu, H Y Tam, et al.. Novel dispersion compensating module based interrogator for fiber bragg grating sensors [C]. ECOC′2007, 2007.
[38] [38] Keisuke Goda, Kevin K Tsia, Bahram Jalali. Amplied dispersive Fourier-transform imaging for ultrafast displacement sensing and barcode reading [J]. Appl Phys Lett, 2008, 93(13): 131109.
[39] [39] K Goda, A Ayazi, D R Gossett, et al.. High-throughput single-microparticle imaging flow analyzer [J]. PNAS, 2012, 109(29): 11630-11635.
[40] [40] K Goda, D R Solli, B Jalali. Real-time optical reflectometry enabled by amplified dispersive Fourier transformation [J]. Appl Phys Lett, 2008, 93(3): 031106.
[41] [41] Kevin K Tsia, Keisuke Goda, Dale Capewell, et al.. Simultaneous mechanical-scan-free confocal microscopy and laser microsurgery [J]. Opt Lett, 2009, 34(14): 2099-2101.
[42] [42] K Goda, A Mahjoubfar, C Wang, et al.. Hybrid dispersion laser scanner, Scientific Reports, 2012, 2: 445.
[43] [43] Y Park, J Azana. Ultrafast photonic intensity integrator [J]. Opt Lett, 2009, 34(8): 1156-1158.
[44] [44] Y Park, J Azana. Optical signal processors based on a time-spectrum convolution [J]. Opt Lett, 2010, 35(6): 796-798.
[45] [45] M C Cardakli, S Lee, A E Willner. Reconfigurable optical packet header recognition and routing using time-to-wavelength mapping and tunable fiber Bragg grating for correlation and decoding [J]. IEEE Photon Technol Lett, 2000, 12(5): 552-554.
[46] [46] Roderick Peter Webb, Xuelin Yang, Robert J Manning, et al.. All-optical binary pattern recognition at 42 Gb/s [J]. J Lightwave Technol, 2009, 27(13): 2240-2244.
[47] [47] F Li, Yongwoo Park, Jos Azana. Single-shot real-time frequency chirp characterization of telecommunication optical signals based on balanced temporal optical differentiation [J]. Opt Lett, 2009, 34(18): 2742-2744.
[48] [48] A Pasquazi, Marco Peccianti, Yongwoo Park, et al.. Sub-picosecond phase-sensitive optical pulse characterization on a chip [J]. Nature Photonics, 2010, 5(10): 618-623.
[49] [49] L Grüner-Nielsen, Y Sun, J W Nicholson, et al.. Few mode transmission fiber with low DGD, low mode coupling and low loss [C]. OFC/NFOEC, 2012. PDP5A1.
[50] [50] Sercan O. Arlk, Daulet Askarov, Joseph M Kahn. Effect of mode coupling on signal processing complexity in mode-division multiplexing [J]. J Lightwave Technol, 2013, 31(3): 423-431.
[51] [51] Tan Zhongwei, Wang Chao, Diebold, et al.. Real-time wavelength and bandwidth-independent optical integrator based on modal dispersion [J]. Opt Express, 2012, 20(13): 14109-14116.
[52] [52] K Jespersen, Z Li, L Grüner-Nielsen, et al.. Measuring distributed mode scattering in long, few-moded fibers [C]. OFC/NFOEC, 2012. OTh3I.4.
[53] [53] Keang-Po Ho, Joseph M Kahn. Statistics of group delays in multimode fiber with strong mode coupling [J]. J Lightwave Technol, 2011, 29, (21): 3119-3218.
Get Citation
Copy Citation Text
Tan Zhongwei, Qin Fengjie, Ren Wenhua, Liu Yan. Application of Fiber Dispersion in All Optical Data Processing[J]. Laser & Optoelectronics Progress, 2013, 50(8): 80023
Category: Reviews
Received: Mar. 29, 2013
Accepted: --
Published Online: Aug. 8, 2013
The Author Email: Zhongwei Tan (tanzwei@126.com)