Review on OFC 2010 Nan Chi. Outline exhibition Non-telecom transmission components Plenary talk.
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Transcript of Review on OFC 2010 Nan Chi. Outline exhibition Non-telecom transmission components Plenary talk.
Review on OFC 2010Review on OFC 2010
Nan Chi
Outline Outline
exhibition
Non-telecom
transmission
components
Plenary talk
Plenary sessionPlenary session
Broadband in Africa: Brian Herlihy,
President, SEACOM, Mauritius
Beyond Today’s Broadband Networks:
Philippe Keryer,Executive Vice President,
President Carrier Product Group,Alcatel-
Lucent, USA
Challenges for New Generation Networks:
Hideo Miyahara,President, NICT, Japan
Innovation in Engineering dedicated to
Charles Kao’s Nobel Prize:Tingye Li,
AT&T, retired
Tingye’s talkTingye’s talk
Tingye’s talkTingye’s talk
Inventas vitam juvat excoluisse per artes
"And they who bettered life on earth by their newly found mastery."
Willard S. Boyle & George E. Smith"for the invention of an imaging semiconductor circuit –the CCD sensor"
Charles K. Kao“for ground breaking achievements concerning the transmission of light in fibers for optical communication“
Tingye’s talkTingye’s talk
Charles Kao is an engineer. Boyle and Smith are scientists, but later
they managed to Upgrade themselves to Engineer
Like confucius, Kaofucius spread the fiber to all-over the world
“I cannot think of anything that can
replace fiber optics.”
“In the next 1000 years, I can’t
think of a better system.”
I will not have the chance to see
this, but you will
ComponentsComponents
Silicon Photonics: Dries Van Thourhout, Gent Uni.
Highly Integrated InP-based Subsystems for All-optical
Processing: by Alistair Poustie, CIP
High-Performance Photonic Integrated Circuits (PICs): Larry
A. Coldren, UCSB
Silicon PhotonicsSilicon Photonics
SOI, waveguide design
Sub micron waveguide, ring resonator, Filter and demultiplex
Photonics crystal
CMOS fab, bandling,
CIP: optical signal processing based on SOACIP: optical signal processing based on SOA
SOA gain dynamics, phase, chirp, XGM, XPM
Applications – All-optical signal processing
Limited # of gates on chip
No ‘Moore’s Law’for optics
Niche applications
Regeneration of advanced modulation formats
– Mainstream telecom •Integrated DWDM transceivers, •Advanced
modulation format Tx/Rx, •WDM-PON sources
Costs –Scalable to low cost for market acceptance
–Costs will reduce as volume increases
–Passive assembly a requisite
Application example-Quad SOA-MZIApplication example-Quad SOA-MZI
EU MUFINS Burst Mode Receiver @ 40Gb/s –3 interconnected SOA-MZIs, 40GHz waveguide FP filter, hybrid
integrated optical isolator –Requires 9 passive assembled elements on PLC
PIC by ColdrenPIC by Coldren
640Gb/s
Power: 10.8kW
213x91x60cm3
A Monolithic Tunable Optical Router (MOTOR)A Monolithic Tunable Optical Router (MOTOR)
Widely-Tunable-X PICs-----serial integrationWidely-Tunable-X PICs-----serial integration
SGDBR + Multilevel Optical ModulationSGDBR + Multilevel Optical Modulation
Integrated Multi-Channel PICs----parallel integrationIntegrated Multi-Channel PICs----parallel integration
Parallel integration----InfineraParallel integration----Infinera
10x45.6Gb/s
Fundamental configuration for OTDM transmissionFundamental configuration for OTDM transmission
OTDMOTDM
5.1 Tbit/s, Pol-Mux, 16 R5.1 Tbit/s, Pol-Mux, 16 5.1 Tbit/s, Pol-Mux, 16 R5.1 Tbit/s, Pol-Mux, 16 RRZ/QAM (Back-to-back)RRZ/QAM (Back-to-back)
OTDM PostdeadlineOTDM Postdeadline
1.28Tb/s Chalcogenide As2S3 planar waveguide
Transmitter: XPM based performance monitoring
Receiver, FWM based demultiplexing
1.28Tb/s optical sampling in Silicon Nanowire
450nmx300nmx5mm
Previous response around several hundred G, now >1T
High speed ---- coherent receiver with parallel optical High speed ---- coherent receiver with parallel optical samplingsampling
High speed ---- coherent receiver with parallel optical High speed ---- coherent receiver with parallel optical samplingsampling
Bell labs---PD paper 224Gb 56Gbaud PDMQPSKBell labs---PD paper 224Gb 56Gbaud PDMQPSK
Large capacity and long reachLarge capacity and long reach
NTT: 69.1 Tb/s 432x171 Gb/s x 240km 16QAM, 25GHz
NEC Labs, 64 Tb/s 640x107Gb/s x 320km 12.5GHz spacing,
36QAM
Submarine----TycoSubmarine----Tyco
96x100G SE=3@10608km, SE=4@4368 Pre filtered
OFDMOFDM
448G 2000km, 16QAM, SE 7, 7% FEC
41.25G OFDMA-PON real time receiver
Access network---PD paperAccess network---PD paper
FSO and Multi-modeFSO and Multi-mode
Multiple-ring modulationMultiple-ring modulation
Capacity reaches a maximum due to fiber nonlinearityCapacity reaches a maximum due to fiber nonlinearity
David pendryDavid pendry
Can Spectral Efficiency Increase Enough?Can Spectral Efficiency Increase Enough?
100G modulator100G modulator
Sumitomo, Fujitsu, OIF, U2t
100G modulator100G modulator
100G coherent receiver100G coherent receiver
Optoplex, NEC, U2t, Picometrix, Fujitsu, Inphi
100G DP-QPSK State of Art100G DP-QPSK State of Art
Modulator: Sumitomo, Fujitsu, OIF, U2t
Driver: Triquint
Receiver: NEC/Picometrix/U2t/Neophotonics/Fujitsu
/Optoplex, Inphi
Real time 100G transmission: Opnext
eFEC: Vitesse (CI-BCH)
IC: coreoptics, Micram, Semtech
NEL: RZ-DQPSK, DLI+Balanced receiver connected by taped fiber
Neophotoics: FTTX, 100G coherent, ROADM AFOP, Gemfire: VOA, WDM JDSU: 1X23 WSS, Tunable XFP Avago: 40G AOC Sumitomo: FC, Ethernet, SDH, CATV, CWDM, 10/2.5G Emcore: CATV, FTTX, Tunable XFP, 20/40G AOC, 12
channel parallel module
总结总结
更高速率 5T/400G ,更长距离 10000km ,更高谱效率 8bit/
s/Hz,
相干无处不在,传输,接入, ROF
器件进一步集成,串行 , 并行 , 功能集成,混合集成,硅基,亚微米 / 纳米
量子连续 3 天专题,原理,器件,到系统
How optics can enlighten the future of the Internet of How optics can enlighten the future of the Internet of ThingsThings
High-speed optical communciation infrastructure Future Multi-layer multi-domain internet Optical swtiching and optical interconnection Phontonics system on Chip and large scale optoelectrnoncis integration Free space optical communication and RFID
Dr. Shaohua Yu Deputy-director and CTO of WRI Fiberhome. Director of Optical fiber communication technology and network State Key Laboratory, ITU-T SG15 Vice-Chairman (China Representative).
Prof. Lirong Zheng
Dean of Information Science and Engineering, Fudan University.
Professor Chair in Media Electronics, Royal Institute of Technology,
Sweden, Director and founder of iPack VINN Excellence Center.
院士:王威琪,邓中翰,庄松林…
BUPT Alumni Reunion in Kao’s symposiumBUPT Alumni Reunion in Kao’s symposium
A Historical MomentA Historical Moment
THANK YOU