Publications by Richard Schatz
Refereegranskade
Artiklar
[1]
X. Pang et al., "200 Gb/s Optical-Amplifier-Free IM/DD Transmissions Using a Directly Modulated O-Band DFB+R Laser Targeting LR Applications," Journal of Lightwave Technology, vol. 41, no. 11, pp. 3635-3641, 2023.
[2]
M. Han et al., "High Spectral Efficiency Long-Wave Infrared Free-Space Optical Transmission With Multilevel Signals," Journal of Lightwave Technology, vol. 41, no. 20, pp. 6514-6520, 2023.
[3]
H. Dely et al., "High bitrate data transmission in the 8-14 mu m atmospheric window using an external Stark-effect modulator with digital equalization," Optics Express, vol. 31, no. 5, pp. 7259-7264, 2023.
[4]
M. Joharifar et al., "High-Speed 9.6-μm Long-Wave Infrared Free-Space Transmission With a Directly-Modulated QCL and a Fully-Passive QCD," Journal of Lightwave Technology, vol. 41, no. 4, pp. 1087-1094, 2023.
[5]
M. Han et al., "Long-Wave Infrared Discrete Multitone Free-Space Transmission Using a 9.15-μm Quantum Cascade Laser," IEEE Photonics Technology Letters, vol. 35, no. 9, pp. 489-492, 2023.
[6]
O. Ozolins et al., "Optical Amplification-Free High Baudrate Links for Intra-Data Center Communications," Journal of Lightwave Technology, vol. 41, no. 4, pp. 1200-1206, 2023.
[7]
M. Han et al., "Optical amplification-free deep reservoir computing-assisted high-baudrate short-reach communication," Optics Letters, vol. 48, no. 8, pp. 2122-2125, 2023.
[8]
X. Pang et al., "Bridging the Terahertz Gap: Photonics-assisted Free-Space Communications from the Submillimeter-Wave to the Mid-Infrared," Journal of Lightwave Technology, pp. 1-1, 2022.
[9]
X. Pang et al., "Direct Modulation and Free-Space Transmissions of up to 6 Gbps Multilevel Signals With a 4.65-mu m Quantum Cascade Laser at Room Temperature," Journal of Lightwave Technology, vol. 40, no. 8, pp. 2370-2377, 2022.
[10]
Y. Fan et al., "Feedforward Neural Network-based EVM Estimation : Impairment Tolerance in Coherent Optical Systems," IEEE Journal of Selected Topics in Quantum Electronics, pp. 1-1, 2022.
[11]
Y. Fan et al., "Linear Regression vs. Deep Learning for Signal Quality Monitoring in Coherent Optical Systems," IEEE Photonics Journal, vol. 14, no. 4, 2022.
[12]
M. Han et al., "Simultaneous modulation format identification and OSNR monitoring based on optoelectronic reservoir computing," Optics Express, vol. 30, no. 26, pp. 47515-47527, 2022.
[13]
O. Ozolins et al., "100 Gbaud On-Off Keying/Pulse Amplitude Modulation Links in C-Band for Short-Reach Optical Interconnects," Applied Sciences, vol. 11, no. 9, 2021.
[14]
D. Che et al., "200-Gb/s Direct Modulation of a 50-GHz Class Laser with Advanced Digital Modulations," Journal of Lightwave Technology, vol. 39, no. 3, pp. 845-852, 2021.
[15]
Y. Fan et al., "Experimental validation of CNNs versus FFNNs for time- and energy-efficient EVM estimation in coherent optical systems," Journal of Optical Communications and Networking, vol. 13, no. 10, pp. E63-E71, 2021.
[16]
Y. Matsui et al., "Low-chirp isolator-free 65-GHz-bandwidth directly modulated lasers," Nature Photonics, vol. 15, no. 1, pp. 59-63, 2021.
[17]
X. Pang et al., "Short Reach Communication Technologies for Client-Side Optics Beyond 400 Gbps," IEEE Photonics Technology Letters, vol. 33, no. 18, pp. 1046-1049, 2021.
[18]
X. Pang et al., "200 Gbps & x002F;Lane IM & x002F;DD Technologies for Short Reach Optical Interconnects," Journal of Lightwave Technology, vol. 38, no. 2, pp. 492-503, 2020.
[19]
D. Che et al., "400-Gb/s direct modulation using a DFB plus R laser," Optics Letters, vol. 45, no. 12, pp. 3337-3339, 2020.
[20]
Z. Liu et al., "50-GHz Repetition Gain Switching Using a Cavity-Enhanced DFB Laser Assisted by Optical Injection Locking," Journal of Lightwave Technology, vol. 38, no. 7, pp. 1844-1850, 2020.
[21]
K. Panajotov and R. Schatz, "Coupled-Cavity VCSEL with an Integrated Electro-Absorption Modulator : Small- and Large-Signal Modulation Analysis," Applied Sciences, vol. 10, no. 17, 2020.
[22]
X. Pang et al., "Free-Space Communications Enabled by Quantum Cascade Lasers," Physica Status Solidi (a) applications and materials science, 2020.
[23]
L. Zhang et al., "Kernel Affine Projection for Nonlinearity Tolerant Optical Short Reach Systems," IEEE Transactions on Communications, vol. 68, no. 10, pp. 6403-6412, 2020.
[24]
S. Kolpakov et al., "Optical rogue waves in coupled fiber Raman lasers," Optics Letters, vol. 45, no. 17, pp. 4726-4729, 2020.
[25]
G. Omanakuttan et al., "Surface emitting 1.5 mu m multi-quantum well LED on epitaxial lateral overgrowth InP/Si," Optical Materials Express, vol. 10, no. 7, pp. 1714-1723, 2020.
[26]
M. Spyropoulou et al., "Towards 1.6T datacentre interconnect technologies : the TWILIGHT perspective," JOURNAL OF PHYSICS-PHOTONICS, vol. 2, no. 4, 2020.
[27]
P. Rosa et al., "Unrepeatered 240-km 64-QAM Transmission Using Distributed Raman Amplification over SMF Fiber," Applied Sciences, vol. 10, no. 4, 2020.
[28]
J. Van Kerrebrouck et al., "High-Speed PAM4-Based Optical SDM Interconnects With Directly Modulated Long-Wavelength VCSEL," Journal of Lightwave Technology, vol. 37, no. 2, pp. 356-362, 2019.
[29]
L. Zhang et al., "Nonlinearity Tolerant High-Speed DMT Transmission With 1.5-mu m Single-Mode VCSEL and Multi-Core Fibers for Optical Interconnects," Journal of Lightwave Technology, vol. 37, no. 2, pp. 380-388, 2019.
[30]
L. Zhang et al., "Toward Terabit Digital Radio over Fiber Systems : Architecture and Key Technologies," IEEE Communications Magazine, vol. 57, no. 4, pp. 131-137, 2019.
[31]
L. Zhang et al., "Nonlinearity-aware 200 Gbit/s DMT transmission for C-band short-reach optical interconnects with a single packaged electro-absorption modulated laser," Optics Letters, vol. 43, no. 2, pp. 182-185, 2018.
[32]
R. Lin et al., "Real-time 100 Gbps/λ/core NRZ and EDB IM/DD transmission over multicore fiber for intra-datacenter communication networks," Optics Express, vol. 26, no. 8, pp. 10519-10526, 2018.
[33]
X. Chen et al., "TDHQ Enabling Fine-Granularity Adaptive Loading for SSB-DMT Systems," IEEE Photonics Technology Letters, vol. 30, no. 19, pp. 1687-1690, 2018.
[34]
A. Marinins et al., "Thermal Reflow Engineered Cylindrical Polymer Waveguides for Optical Interconnects," IEEE Photonics Technology Letters, vol. 30, no. 5, pp. 447-450, 2018.
[35]
O. Ozolins et al., "100 GHz Externally Modulated Laser for Optical Interconnects," Journal of Lightwave Technology, vol. 35, no. 6, pp. 1174-1179, 2017.
[36]
Y. Matsui et al., "55 GHz Bandwidth Distributed Reflector Laser," Journal of Lightwave Technology, vol. 35, no. 3, pp. 397-403, 2017.
[37]
A. Udalcovs et al., "Analysis of Spectral and Energy Efficiency Tradeoff in Single-Line Rate WDM Links," Journal of Lightwave Technology, vol. 35, no. 10, pp. 1847-1857, 2017.
[38]
J. Rodrigo Navarro et al., "Blind phase search with angular quantization noise mitigation for efficient carrier phase recovery," Photonics, vol. 4, no. 2, 2017.
[39]
L. Zhang et al., "Digital mobile fronthaul employing differential pulse code modulation with suppressed quantization noise," Optics Express, vol. 25, no. 25, pp. 31921-31936, 2017.
[40]
X. Pang et al., "Experimental Evaluation of Impairments in Unrepeatered DP-16QAM Link with Distributed Raman Amplification," Photonics, vol. 4, no. 1, 2017.
[41]
X. Pang et al., "Experimental Study of 1.55-μ m EML-Based Optical IM/DD PAM-4/8 Short Reach Systems," IEEE Photonics Technology Letters, vol. 29, no. 6, pp. 523-526, 2017.
[42]
X. Pang et al., "Gigabit free-space multi-level signal transmission with a mid-infrared quantum cascade laser operating at room temperature," Optics Letters, vol. 42, no. 18, pp. 3646-3649, 2017.
[43]
A. Kakkar et al., "Laser Frequency Noise in Coherent Optical Systems : Spectral Regimes and Impairments," Scientific Reports, vol. 7, 2017.
[44]
M. Verplaetse et al., "Real-Time 100 Gb/s Transmission Using Three-Level Electrical Duobinary Modulation for Short-Reach Optical Interconnects," Journal of Lightwave Technology, vol. 35, no. 7, pp. 1313-1319, 2017.
[45]
J. R. Navarro et al., "Carrier Phase Recovery Algorithms for Coherent Optical Circular mQAM Systems," Journal of Lightwave Technology, vol. 34, no. 11, pp. 2717-2723, 2016.
[46]
M. I. Olmedo et al., "Effective Linewidth of Semiconductor Lasers for Coherent Optical Data Links," Photonics, vol. 3, no. 2, 2016.
[47]
A. Kakkar et al., "Equalization Enhanced Phase Noise in Coherent Optical Systems with Digital Pre- and Post-Processing," Photonics, vol. 3, no. 2, 2016.
[48]
J. R. Navarro et al., "Two-Stage n-PSK Partitioning Carrier Phase Recovery Scheme for Circular mQAM Coherent Optical Systems," Photonics, vol. 3, no. 2, 2016.
[49]
J. Rodrigo Navarro et al., "Adaptive Boundaries Scheme for Cycle-Slip Mitigation in C-mQAM Coherent Systems," IEEE Photonics Technology Letters, vol. 27, no. 20, pp. 2154-2157, 2015.
[50]
A. Kakkar et al., "Comprehensive study of equalization-enhanced phase noise in coherent optical systems," Journal of Lightwave Technology, vol. 33, no. 23, pp. 4834-4841, 2015.
[51]
T. Xu et al., "Field trial over 820 km installed SSMF and its potential Terabit/s superchannel application with up to 57.5-Gbaud DP-QPSK transmission," Optics Communications, vol. 353, pp. 133-138, 2015.
[52]
A. Kakkar et al., "Impact of local oscillator frequency noise on coherent optical systems with electronic dispersion compensation," Optics Express, vol. 23, no. 9, pp. 11221-11226, 2015.
[53]
M. Piels et al., "Laser Rate Equation-Based Filtering for Carrier Recovery in Characterization and Communication," Journal of Lightwave Technology, vol. 33, no. 15, pp. 3271-3279, 2015.
[54]
A. Kakkar et al., "Mitigation of EEPN in Coherent Optical Systems With Low-Speed Digital Coherence Enhancement," IEEE Photonics Technology Letters, vol. 27, no. 18, pp. 1942-1945, 2015.
[55]
A. Udalcovs et al., "Power efficiency of WDM networks using various modulation formats with spectral efficiency limited by linear crosstalk," Optics Communications, vol. 318, pp. 31-36, 2014.
[56]
A. Z. Zhang et al., "Fabrication of an electro-absorption transceiver with a monolithically integrated optical amplifier for fiber transmission of 40-60 GHz radio signals," Semiconductor Science and Technology, vol. 26, no. 1, pp. 014042, 2011.
[57]
M. Chacinski and R. Schatz, "Impact of losses in the Bragg section on the dynamics of detuned loaded DBR lasers," IEEE Journal of Quantum Electronics, vol. 46, no. 9, pp. 1360-1367, 2010.
[58]
M. Chacinski et al., "Dynamic properties of electrically p-n confined, epitaxially regrown 1.27 μm InGaAs single-mode vertical-cavity surface-emitting lasers," IET optoelectronics, vol. 3, no. 3, pp. 163-167, 2009.
[59]
N. Akram et al., "Experimental characterization of high-speed 1.55 mu m buried heterostructure InGaAsP/InGaAlAs quantum-well lasers," Journal of the Optical Society of America. B, Optical physics, vol. 26, no. 2, pp. 318-327, 2009.
[60]
C.-P. Liu et al., "Full-duplex DOCSIS/wirelessDOCSIS fiber-radio network employing packaged AFPMs as optical/electrical transducers," Journal of Lightwave Technology, vol. 25, no. 3, pp. 673-684, 2007.
[61]
Y. C. Yu et al., "Enhanced linear dynamic range of asymmetric Fabry-Perot modulator/detector," IEEE Photonics Technology Letters, vol. 18, no. 12-sep, pp. 1040-1042, 2006.
[62]
Y. C. Yu et al., "Enhanced linear dynamic range of asymmetric Fabry-Perot modulator/detector," IEEE Photonics Technology Letters, vol. 18, no. 08-maj, pp. 770-772, 2006.
[63]
H. Pfrommer et al., "Full-duplex DOCSIS/wirelessDOCSIS fiber-radio network employing packaged AFPM-based base-stations," IEEE Photonics Technology Letters, vol. 18, no. 04-jan, pp. 406-408, 2006.
[64]
F. Gerschutz et al., "Temperature insensitive 1.3 mu m InGaAs/GaAs quantum dot distributed feedback lasers for 10 Gbit/s transmission over 21 km," Electronics Letters, vol. 42, no. 25, pp. 1457-1458, 2006.
[65]
N. Akram et al., "The effect of barrier composition on the vertical carrier transport and lasing properties of 1.55-mu m multiple quantum-well structures," IEEE Journal of Quantum Electronics, vol. 42, no. 7, pp. 713-714, 2006.
[66]
M. Chacinski, M. Isaksson and J. R. Schatz, "High-speed direct Modulation of widely tunable MG-Y laser," IEEE Photonics Technology Letters, vol. 17, no. 6, pp. 1157-1159, 2005.
[67]
M. Chacinski et al., "Single-mode 1.27 μm InGaAs vertical cavity surface-emitting lasers with temperature-tolerant modulation characteristics," Applied Physics Letters, vol. 86, no. 21, pp. 211109-1-211109-3, 2005.
[68]
N. Akram et al., "Design optimization of InGaAsP-InGaAlAs 1.55 mu m strain-compensated MQW lasers for direct modulation applications," Semiconductor Science and Technology, vol. 19, no. 5, pp. 615-625, 2004.
[69]
C. Carlsson et al., "High-frequency analog modulation of oxide confined 670-nm vertical-cavity surface-emitting lasers," Optical Engineering : The Journal of SPIE, vol. 43, no. 12, pp. 3138-3141, 2004.
[70]
N. Akram, R. Schatz and O. Kjebon, "Influence of electrical parasitics and drive impedance on the laser modulation response," IEEE Photonics Technology Letters, vol. 16, no. 1, pp. 21-23, 2004.
[71]
S. Mogg et al., "Temperature sensitivity of the threshold current of long-wavelength InGaAs/GaAs VCSELs with large gain-cavity detuning," IEEE Journal of Quantum Electronics, vol. 40, no. 5, pp. 453-462, 2004.
[72]
C. Carlsson et al., "Analog modulation properties of oxide confined VCSELs at microwave frequencies," Journal of Lightwave Technology, vol. 20, no. 9, pp. 1740-1749, 2002.
[73]
S. Mogg et al., "Properties of highly strained InGaAs/GaAs quantum wells for 1.2-mu m laser diodes," Applied Physics Letters, vol. 81, no. 13, pp. 2334-2336, 2002.
[74]
R. Lewen et al., "Design of inductive p-i-n diode matching for optical receivers with increased bit-rate operation," Journal of Lightwave Technology, vol. 19, no. 12, pp. 1956-1963, 2001.
[75]
R. Stevens et al., "Quest for very high speed VCSELs : pitfalls and clues," Vertical-Cavity Surface-Emitting Lasers V, vol. 4286, pp. 71-79, 2001.
[76]
G. Morthier, R. Schatz and O. Kjebon, "Extended modulation bandwidth of DBR and external cavity lasers by utilizing a cavity resonance for equalization," IEEE Journal of Quantum Electronics, vol. 36, no. 12, pp. 1468-1475, 2000.
[77]
A. A. Saavedra et al., "Amplitude and frequency modulation characteristics of widely tunable GCSR lasers," IEEE Photonics Technology Letters, vol. 10, pp. 1383-1385, 1998.
[78]
J. Skagerlund et al., "Evaluation of an automatic method to extract the grating coupling coefficient in different types of fabricated DFB lasers," IEEE Journal of Quantum Electronics, vol. 34, pp. 141-146, 1998.
[79]
D. McDonald et al., "Measurement and parameter extraction of semiconductor lasers : experiences of the pan-European action COST 240," Laser Diodes and Applications III, vol. 3415, pp. 152-163, 1998.
[80]
A. A. Saavedra et al., "Relative intensity noise and linewidth measurements of a widely tunable GCSR laser," IEEE Photonics Technology Letters, vol. 10, pp. 481-483, 1998.
[81]
S. Lindgren et al., "24-GHz modulation bandwidth and passive alignment of flip-chip mounted DFB laser diodes," IEEE Photonics Technology Letters, vol. 9, no. 3, pp. 306-308, 1997.
[82]
O. Kjebon et al., "30GHz direct modulation bandwidth indetuned loaded InGaAsP DBR lasers at1.55 μm wavelength," Electronics Letters, vol. 33, pp. 488-489, 1997.
[83]
U. Bandelow, R. Schatz and H. -. Wunsche, "A correct single-mode photon rate equation for multisection lasers," IEEE Photonics Technology Letters, vol. 8, pp. 614-616, 1996.
[84]
R. Schatz, "Dynamics of spatial hole burning effects in DFB lasers," IEEE Journal of Quantum Electronics, vol. 31, pp. 1981-1993, 1995.
[85]
S. Nilsson et al., "Improved spectral characteristics of MQW-DFB lasers by incorporation of multiple phase-shifts," Journal of Lightwave Technology, vol. 13, pp. 434-441, 1995.
[86]
G. Morthier et al., "COMPARISON OF DIFFERENT DFB LASER MODELS WITHIN THE EUROPEAN COST-240 COLLABORATION.," IEE Proceedings - Optoelectronics, vol. 141, pp. 82-88, 1994.
[87]
A. Karlsson, R. Schatz and G. Bjork, "On the modulation bandwidth of semiconductor microcavity lasers," IEEE Photonics Technology Letters, vol. 6, pp. 1312-1314, 1994.
[88]
R. Schatz, E. Berglind and L. Gillner, "Parameter extraction from DFB lasers by means of a simple expression for the spontaneous emission spectrum," IEEE Photonics Technology Letters, vol. 6, pp. 1182-1184, 1994.
[89]
R. Schatz and C. G. Bethea, "Steady state model for facet heating leading to thermal runaway in semiconductor lasers," Journal of Applied Physics, vol. 76, pp. 2509-2521, 1994.
[90]
S. Nilsson et al., "DFB laser with nonuniform coupling coefficient realized by double-layer buried grating," IEEE Photonics Technology Letters, vol. 5, pp. 1128-1131, 1993.
[91]
T. Kjellberg et al., "Investigation on the spectral characteristics of DFB lasers with different grating configurations made by electron-beam lithography," Journal of Lightwave Technology, vol. 11, pp. 1405-1415, 1993.
[92]
T. Kjellberg et al., "Effect of stitching errors on the performance of DFB lasers fabricated using e-beam lithography (Poster Paper)," Electron-Beam, X-Ray, and Ion-Beam Submicrometer Lithographies for Manufacturing II, vol. 1671, pp. 191-200, 1992.
[93]
R. Schatz, "Longitudinal spatial instability in symmetric semiconductor lasers due to spatial hole burning," IEEE Journal of Quantum Electronics, vol. 28, pp. 1443-1449, 1992.
[94]
T. Kjellberg and R. Schatz, "The effect of stitching errors on the spectral characteristics of DFB lasers fabricated using electron beam lithography," Journal of Lightwave Technology, vol. 10, pp. 1256-1266, 1992.
[95]
E. Goobar and R. Schatz, "Broadband measurements of frequency noise spectrum in two section DBR laser," Electronics Letters, vol. 27, pp. 289-291, 1991.
[96]
E. Goobar et al., "Pure frequency modulation or intensity modulation with suppressed frequency chirp using active Bragg reflector integrated laser," Electronics Letters, vol. 25, pp. 304-305, 1989.
[97]
E. Goobar et al., "Measurement of a VPE-transported DFB laser with blue-shifted frequency modulation response from DC to 2 GHz," Electronics Letters, vol. 24, pp. 746-747, 1988.
Konferensbidrag
[98]
O. Ozolins et al., "106.25 Gbaud 4-Level Pulse Amplitude Modulation Links Supporting (2x)100Gigabit Ethernet on Single Lambda," in 2023 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION, OFC, 2023.
[99]
A. Ostrovskis et al., "240/160 Gbaud OOK Silicon Photonics MZM/RRM Transmitters for Short-Reach Applications," in 2023 IEEE Silicon Photonics Conference, SiPhotonics 2023, 2023.
[100]
M. Joharifar et al., "8.1 Gbps PAM8 Long -Wave IR FSO Transmission using a 9.15-mu m Directly-Modulated QCL with an MCT Detector," in 2023 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION, OFC, 2023.
[101]
M. Joharifar et al., "8.1 Gbps PAM8 Long-Wave IR FSO Transmission using a 9.15-μm Directly-Modulated QCL with an MCT Detector," in 2023 Optical Fiber Communications Conference and Exhibition, OFC 2023 - Proceedings, 2023.
[102]
R. Puerta et al., "Coherent Joint Transmission with 1024-QAM for 6G Distributed-MIMO Networks with Analog Radio-over-LWIR FSO Fronthaul Links," in 2023 Asia Communications and Photonics Conference/2023 International Photonics and Optoelectronics Meetings, ACP/POEM 2023, 2023.
[103]
M. Han et al., "Deep Reservoir Computing for 100 Gbaud PAM6 IM/DD Transmission Impairment Mitigation," in 2023 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION, OFC, 2023.
[104]
O. Ozolins et al., "High-Baudrate SiP and InP Modulators for Data Center Interconnects," in 2023 31st International Conference on Software, Telecommunications and Computer Networks, SoftCOM 2023, 2023.
[105]
O. Ozolins et al., "High-Baudrate Silicon Photonics Ring Resonator Modulators for Short-Reach Applications," in 2023 Asia Communications and Photonics Conference/2023 International Photonics and Optoelectronics Meetings, ACP/POEM 2023, 2023.
[106]
O. Ozolins et al., "High-Baudrate Silicon Photonics Ring Resonator and Mach-Zehnder Modulators for Short-Reach Applications," in 2023 23rd International Conference on Transparent Optical Networks, ICTON 2023, 2023.
[107]
R. Puerta et al., "NR Conformance Testing of Analog Radio-over-LWIR FSO Fronthaul link for 6G Distributed MIMO Networks," in 2023 Optical Fiber Communications Conference and Exhibition (OFC), 2023.
[108]
O. Ozolins et al., "Optical Amplification -Free 310/256 Gbaud 00K, 197/145 Gbaud PAM4, and 160/116 Gbaud PAM6 EML/DML-based Data Center Links," in 2023 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION, OFC, 2023.
[109]
O. Ozolins et al., "Optical Amplification-Free 310/256 Gbaud OOK, 197/145 Gbaud PAM4, and 160/116 Gbaud PAM6 EML/DML-based Data Center Links," in 2023 Optical Fiber Communications Conference and Exhibition, OFC 2023 - Proceedings, 2023.
[110]
A. Strömberg et al., "Semi-insulating InP:Fe growth by hydride vapor phase epitaxy for advanced buried heterostructure quantum cascade lasers," in Novel In-Plane Semiconductor Lasers XXII, 2023.
[111]
M. Spyropoulou et al., "The future of multi-terabit datacenter interconnects based on tight co-integration of photonics and electronics technologies," in 2023 Optical Fiber Communications Conference and Exhibition (OFC), 2023.
[112]
X. Pang et al., "11 Gb/s LWIR FSO Transmission at 9.6 mu m using a Directly-Modulated Quantum Cascade Laser and an Uncooled Quantum Cascade Detector," in 2022 Optical Fiber Communications Conference and Exhibition, OFC 2022 - Proceedings, 2022.
[113]
X. Pang et al., "11 Gb/s LWIR FSO Transmission at 9.6 µm using a Directly-Modulated Quantum Cascade Laser and an Uncooled Quantum Cascade Detector," in Optics InfoBase Conference Papers, 2022.
[114]
X. Pang et al., "200 Gb/s Unamplified IM/DD Transmission over 20-km SMF with an O-band Low-Chirp Directly Modulated Laser," in 2022 European Conference on Optical Communication, ECOC 2022, 2022.
[115]
Y. Fan et al., "A Comparison of Linear Regression and Deep Learning Model for EVM Estimation in Coherent Optical Systems," in 2022 Conference on Lasers and Electro-Optics Pacific Rim, CLEO-PR 2022 - Proceedings, 2022.
[116]
Y. Fan et al., "A Comparison of Linear Regression and Deep LearningModel for EVM Estimation in Coherent Optical Systems," in Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR), 2022.
[117]
Y. Matsui et al., "Direct Modulation Lasers for High-speed Data Communication Systems," in OECC/PSC 2022 : 27th OptoElectronics and Communications Conference/International Conference on Photonics in Switching and Computing 2022, 2022.
[118]
Y. Fan et al., "EVM Estimation for Performance Monitoring in Coherent Optical Systems : An Approach of Linear Regression," in 2022 Conference on Lasers and Electro-Optics, CLEO 2022 - Proceedings, 2022.
[119]
Y. Fan et al., "EVM Estimation for Performance Monitoring in Coherent Optical Systems : An Approach of Linear Regression," in Optics InfoBase Conference Papers, 2022.
[120]
Y. Fan et al., "EVM Estimation for Performance Monitoring in Coherent Optical Systems: An Approach of Linear Regression," in IEEE/OSA Conference on Lasers and Electro-Optics (CLEO), 2022.
[121]
O. Ozolins et al., "Error-Free 108 Gbps On-Off Keying Link for Optical Interconnect Applications," in 2022 European Conference on Optical Communication, ECOC 2022, 2022.
[122]
O. Ozolins et al., "High Baudrate Short-Reach Communication," in Proceedings OECC/PSC 2022 - 27th OptoElectronics and Communications Conference/International Conference on Photonics in Switching and Computing 2022, 2022.
[123]
O. Ozolins et al., "Optical Amplification-Free 200 Gbaud On-Off Keying Link for Intra-Data Center Communications," in 2022 Optical Fiber Communications Conference and Exhibition, OFC 2022 - Proceedings, 2022.
[124]
O. Ozolins et al., "Optical Amplification-Free 200 Gbaud On-Off Keying Link for Intra-Data Center Communications," in Optics InfoBase Conference Papers, 2022.
[125]
Y. Fan et al., "Deep Learning Assisted Pre-Carrier Phase Recovery EVM Estimation for Coherent Transmission Systems," in 2021 Conference on Lasers and Electro-Optics, CLEO 2021 - Proceedings, 2021.
[126]
Y. Fan et al., "Deep learning assisted pre-carrier phase recovery EVM estimation for coherent transmission systems," in Optics InfoBase Conference Papers, 2021.
[127]
X. Pang et al., "Directly modulated quantum cascade laser and its application in free-space communications," in Optoelectronic Devices And Integration X, 2021.
[128]
X. Pang et al., "Free-Space Transmissions in the Upper- and Lower-THz Bands Assisted with Photonics," in 2021 European Conference on Optical Communication, ECOC 2021, 2021.
[129]
Y. Fan et al., "Laser Linewidth Tolerant EVM Estimation Approach for Intelligent Signal Quality Monitoring Relying on Feedforward Neural Networks," in 2021 European Conference on Optical Communication, ECOC 2021, 2021.
[130]
D. Che et al., "Long-Term Reliable > 200-Gb/s Directly Modulated Lasers with 800GbE-Compliant DSP," in 2021 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXPOSITION (OFC), 2021.
[131]
D. Che et al., "Long-Term Reliable >200-Gb/s Directly Modulated Lasers with 800GbE-Compliant DSP," in 2021 Optical Fiber Communications Conference and Exhibition, OFC 2021 - Proceedings, 2021.
[132]
D. Che et al., "Long-term reliable >200-Gb/s directly modulated lasers with 800GbE-compliant DSP," in Optics InfoBase Conference Papers, 2021.
[133]
Y. Matsui et al., "Recent progress of VCSEL Photonics and their applications," in 2021 European Conference on Optical Communication (ECOC), 2021.
[134]
M. Spyropoulou et al., "The path to 1Tb/s and beyond datacenter interconnect networks : technologies, components and subsystems," in METRO AND DATA CENTER OPTICAL NETWORKS AND SHORT-REACH LINKS IV, 2021.
[135]
X. Pang et al., "Up to 6 Gbps Mid-Infrared Free-Space Transmission with a Directly Modulated Quantum Cascade Laser," in 2021 European Conference on Optical Communication, ECOC 2021, 2021.
[136]
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