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Compensating Multimode Fiber Dispersion Using Adaptive Optics Joseph M. Kahn Stanford University Department of Electrical Engineering www-ee.stanford.edu/~jmk
7

Compensating Multimode Fiber Dispersion Using Adaptive Optics

Dec 31, 2015

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Compensating Multimode Fiber Dispersion Using Adaptive Optics. Joseph M. Kahn. Stanford University Department of Electrical Engineering www-ee.stanford.edu/~jmk. Acknowledgments. Collaborators J. P. Wilde S. P. Boyd S. Fan M. A. Horowitz I. Lyubomirsky (Infinera Corporation) - PowerPoint PPT Presentation

offset launch

worst sop

step training sequence

adaptive opticsjoseph

optics letters

modal dispersion compensation

multimode fiber dispersion

experimental setupx

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Page 1: Compensating Multimode Fiber Dispersion Using Adaptive Optics

Compensating Multimode Fiber Dispersion Using

Adaptive Optics

Joseph M. Kahn

Stanford University

Department of Electrical

Engineering

www-ee.stanford.edu/~jmk

Page 2: Compensating Multimode Fiber Dispersion Using Adaptive Optics

2

AcknowledgmentsAcknowledgments

Collaborators J. P. Wilde S. P. Boyd S. Fan M. A. Horowitz I. Lyubomirsky (Infinera Corporation) D. F. Welch (Infinera Corporation)

Graduate Students R. A. Panicker M. Bagher Shemirani X. Shen E. Alon (now at UC Berkeley) V. Stojanovic (now at MIT)

Page 3: Compensating Multimode Fiber Dispersion Using Adaptive Optics

3

Modal Dispersion Compensation Using Adaptive OpticsModal Dispersion Compensation Using Adaptive Optics

Spatial LightModulator

Multimode Fiber

OOKModulator

AdaptiveAlgorithm

Fourier Lens

Iin(t)

Trans.Data

Transmitter

Low-Rate Feedback Channel

Photo-Detector

Clock & DataRecovery

ISIEstimation

Rec.Data

ISI ObjectiveFunction

Receiver

Iout(t)

0.30.10.40.8

Page 4: Compensating Multimode Fiber Dispersion Using Adaptive Optics

4

10 Gb/s ErrorDetector

SamplingOscilloscope

10 Gb/s PatternGenerator

1550 nmTunable Laser

PersonalComputer

PM SMFNA = 0.11

50 m GRIN MMFup to 11.1 km long

f = 10.4 mm

f = 10.4 mm

50 m GRIN MMFNA = 0.19

45-45

/2plate

NematicLiquid Crystal

SLMPhase-Only 256 256

/2plate

/4plate

Enclosure

62 m GRINMMF

SLMDriver

10 Gb/s ErrorDetector

SamplingOscilloscope

10 Gb/s PatternGenerator

1550 nmTunable Laser

PersonalComputer

PM SMFNA = 0.11

50 m GRIN MMFup to 11.1 km long

f = 10.4 mm

f = 10.4 mm

50 m GRIN MMFNA = 0.19

45-45

/2plate

NematicLiquid Crystal

SLMPhase-Only 256 256

/2plate

/4plate

Enclosure

62 m GRINMMF

SLMDriver

Experimental SetupExperimental Setup

50 m GRIN MMFup to 11.1 km long

f = 10.4 mm

f = 10.4 mm

50 m GRIN MMFNA = 0.19

45-45

/2plate

NematicLiquid Crystal

SLMPhase-Only 256 256

/2plate

/4plate

Enclosure

50 m GRIN MMFup to 11.1 km long

f = 10.4 mm

f = 10.4 mm

50 m GRIN MMFNA = 0.19

45-45

/2plate

NematicLiquid Crystal

SLMPhase-Only 256 256

/2plate

/4plate

Enclosure

50 m GRIN MMFup to 11.1 km long

f = 10.4 mm

f = 10.4 mm

50 m GRIN MMFNA = 0.19

45-45

/2plate

NematicLiquid Crystal

SLMPhase-Only 256 256

/2plate

/4plate

Enclosure

X. Shen, J. M. Kahn and M. A. Horowitz, Optics Letters, vol. 30, no. 22, pp. 2985-2987, Nov. 15, 2005.

Page 5: Compensating Multimode Fiber Dispersion Using Adaptive Optics

5

11 km, Worst SOP, 10 11 km, Worst SOP, 10 m Offset Launch,m Offset Launch,Before AdaptationBefore Adaptation

Page 6: Compensating Multimode Fiber Dispersion Using Adaptive Optics

6

11 km, Worst SOP, 10 11 km, Worst SOP, 10 m Offset Launch,m Offset Launch,One Iteration Using Step Training SequenceOne Iteration Using Step Training Sequence

Page 7: Compensating Multimode Fiber Dispersion Using Adaptive Optics

7

11 km, Worst SOP, 10 11 km, Worst SOP, 10 m Offset Launch,m Offset Launch,After One Iteration Using Step Training SequenceAfter One Iteration Using Step Training Sequence


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