Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking....
-
Upload
truongtuyen -
Category
Documents
-
view
223 -
download
0
Transcript of Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking....
![Page 1: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/1.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍1
Optical Communications and Networking
朱祖勍
Sept. 25, 2017
![Page 2: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/2.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍2
Nonlinear Effects
The assumption of linearity may not always be valid.
Nonlinear effects are all related to the power ofoptical signals (EM waves).
Nonlinear interaction depends on the interactionlength and the cross-sectional area of the fiber.
Longer interaction length => larger nonlinear effect
Smaller cross-sectional area => higher light intensity => largernonlinear effect
![Page 3: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/3.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍3
Nonlinear Effects
As the optical signal propagates along the fiber, itspower decreases due to fiber loss.
Most of the nonlinear effects occur early in the fiberand diminish as the signal propagates.
Two categories of nonlinear effectsDue to the interaction of light waves with phonons (molecularvibrations) in silica.
Due to the dependence of the refractive index on the intensity of theoptical signal.
![Page 4: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/4.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍4
Nonlinear Scattering Effects
Interactions of light waves with phonons (molecularvibrations) in the silica medium, i.e., scattering
Energy transfer from photons (光子) to phonons (声子)
In scattering, energy gets transferred from one lightwave to another at a longer wavelength, and the lostenergy is absorbed by the phonons in the fiber.
Pump wave: the first light wave at shorter wavelength.Stokes wave: the second light wave at longer wavelength.
Pump
Stokes
Stokes
molecular
![Page 5: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/5.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍5
Nonlinear Scattering Effects
Stimulated Brillouin Scattering (SBS)Stokes and pump waves propagate in opposite directions
Cause distortion within a single wavelength channel (~20 MHz linewidth)
Stimulated Raman Scattering (SRS)Energy transfer from shorter-wavelength signals to a longer-wavelength signals
Cause distortion in multiple wavelength channels, broadband effect
Bi-directional distortions.
![Page 6: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/6.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍6
Nonlinear Effects
Fiber refractive index n is a function of the intensityI of the optical signal, i.e., n(ω, I).In the presence of nonlinearities, the dielectricpolarization in the fiber: P(r, t) = PL(r, t) + PNL(r, t).
PL(r, t) is the linear dielectric polarization.PNL(r, t) is the nonlinear dielectric polarization.
PNL(r, t) = ε0χ(3)E3(r, t), χ(3) is the third-ordernonlinear susceptibility and is a constant.The nonlinear dielectric polarization causes therefractive index to become intensity dependent.
![Page 7: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/7.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍7
Self-Phase Modulation
Generally, nonlinear dielectric polarization generates newfrequency component.Chromatic dispersion leads to “phase mismatch” between thenew frequency component generated at location z and thosegenerated at other locations.Therefore, the new frequency component is negligible.
New Frequency Component
![Page 8: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/8.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍8
Phase-Mismatching
Fiber nonlinear effects get reduced when there is phase mismatch.The pulses, which were temporally coincident, cease to be so afterpropagating for some distance and cannot interact further.Chromatic dispersion is not a bad thing in this case! (~2 ps/nm/kmcan be helpful)
![Page 9: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/9.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍9
Self-Phase ModulationBy neglecting the new frequency component, we have
From the wave equations, we can solve and obtain β0
Because of SPM, the phase of the electric field contains aterm that is proportional to the intensity of the electric field.Because of the pulse’ temporal shape, it does not have aconstant intensity. Thus, the phase shifts on different parts ofthe pulse are different.Thus, SPM causes chirping of the pulses.
![Page 10: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/10.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍10
Cross-Phase Modulation
In WDM systems, the intensity-dependent nonlinear effectsare enhanced since the combined signal from all thechannels can be quite intense.
The intensity-dependent phase shift induced by SPM alone isenhanced because of the intensities of the signals in theother channels. This effect is Cross-Phase Modulation (CPM).
Consider a WDM system with two channels with fields E1 andE2:
SPM CPM
![Page 11: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/11.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍11
Cross-Phase Modulation
In WDM systems, the intensity-dependent nonlinear effectsare enhanced since the combined signal from all thechannels can be quite intense.
The intensity-dependent phase shift induced by SPM alone isenhanced because of the intensities of the signals in theother channels. This effect is Cross-Phase Modulation (CPM).
Consider a WDM system with two channels with fields E1 andE2:
SPM CPM
![Page 12: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/12.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍12
Cross-Phase Modulation
In practice, the effect of CPM can be significantly reduced byincreasing the wavelength spacing to 100 GHz.
Because of chromatic dispersion, the propagation constantsof the channels would then be sufficiently different such thatthe phase-matching condition is eliminated.
In general, nonlinear effects are weak and depend on longinteraction lengths to build up to significant levels, so creatingphase-mismatching is an effective method to over comenonlinearities.
![Page 13: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/13.jpg)
Lecture 4: Signal Propagation in Fiber 朱祖勍13
Four-Wave Mixing
New Waves
Three adjacent wavelength channels, fi, fj and fk, interact to produce afourth frequency, fFWM, where fFWM = fi + fj - fk, known as four-wave mixing.
![Page 14: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/14.jpg)
Lecture 5: Passive Components 朱祖勍1
Optical Communications and Networking
朱祖勍
Sept. 25, 2017
![Page 15: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/15.jpg)
Lecture 5: Passive Components 朱祖勍2
Optical Components
Optical components are fundamental buildingblocks for the engineering of optical communicationsystems.
Understanding their operational principles isessential to understand the operation of opticalnetworks.
Two categories of optical componentsPassive: components that are incapable of providing power gain.
Active: components that are capable of providing power gain.
![Page 16: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/16.jpg)
Lecture 5: Passive Components 朱祖勍3
Passive Components
Optical passive components: components thatcannot generate photons (optical power gain).
Couplers
Isolators and Circulators
Filters
Wavelength Multiplexers
…
![Page 17: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/17.jpg)
Lecture 5: Passive Components 朱祖勍4
Optical Coupler
An optical coupler is used to combine and splitsignals in an optical network.
A 2 x 2 coupler consists of two input ports and twooutput ports.
The most commonly used couplers are made byfusing two fiber together in the middle.
A coupler can be designed to be either wavelengthselective or wavelength independent.
![Page 18: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/18.jpg)
Lecture 5: Passive Components 朱祖勍5
Optical Fiber Coupler
![Page 19: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/19.jpg)
Lecture 5: Passive Components 朱祖勍6
Optical Fiber Coupler
l = Coupling Length
κ = Coupling Coefficient
Input Ports Output Ports
![Page 20: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/20.jpg)
Lecture 5: Passive Components 朱祖勍7
Optical Fiber Coupler
l = Coupling Length
Power Transfer Function:
Light Splitting
![Page 21: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/21.jpg)
Lecture 5: Passive Components 朱祖勍8
Optical Fiber Coupler
l = Coupling Length
Light Combining
Conservation of energy: the total energy of input light wavesequals to that of the output waves, if we assume that thecoupler is lossless.
Lossless combining is impossible, and we cannot design afiber coupler with three ports where the power input at two ofthe ports is completely delivered to the third port.
![Page 22: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/22.jpg)
Lecture 5: Passive Components 朱祖勍9
3-dB Optical Fiber Coupler
Bi-directional device1:2 Splitter2:1 Combiner, 3 dB
Loss in Theory
![Page 23: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/23.jpg)
Lecture 5: Passive Components 朱祖勍10
Multimode Interface (MMI) Coupler
Single-Mode Region
Multi-Mode Region
Single-Mode Region
Bi-directional device, based on substrate waveguides.Utilize mode splitting in Multi-Mode waveguideUseful for Optical Integration
![Page 24: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/24.jpg)
Lecture 5: Passive Components 朱祖勍11
Multimode Interface (MMI) Coupler
![Page 25: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/25.jpg)
Lecture 5: Passive Components 朱祖勍12
Optical Isolator
Reciprocal devices: the devices work exactly the same wayif their inputs and outputs are reversed.
Non-reciprocal device: the devices that are directional.
Isolators: allow signal transmission in one direction but blockall transmission in the reversed direction, i.e., non-reciprocal.
Isolators are used to prevent reflections.A B
From A to B: From B to A:
![Page 26: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/26.jpg)
Lecture 5: Passive Components 朱祖勍13
Optical Isolator
An isolator has two key parameters, insertion loss andisolation.
Insertion loss: loss in the allowed direction, should be assmall as possible, i.e., 1 dB.
Isolation: loss in the non-allowed direction, should be aslarge as possible, i.e., 40 ~ 50 dB.
Isolators operate with the assistance of polarization.A B
From A to B: insertion loss From B to A: isolation
![Page 27: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/27.jpg)
Lecture 5: Passive Components 朱祖勍14
Review of Polarization
The state of polarization (SOP) of light propagating in anSMF refers to the orientation of its electric field vector.
At any time, the electric field vector can be expressed as alinear combination of two orthogonal linear SOPs.
![Page 28: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/28.jpg)
Lecture 5: Passive Components 朱祖勍15
Polarizer and Faraday Rotator
Polarizer: passes only light in a linear SOP and blocks lightin the orthogonal SOP.
Faraday rotator (quarter wave plate): rotates the light’s SOPclockwise, by π/4, regardless of the propagation direction.
PolarizerFaraday Rotator
![Page 29: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/29.jpg)
Lecture 5: Passive Components 朱祖勍16
Operational Principle of Optical Isolators
Light from left to right can pass through, since its SOP alignswith the SOP permitted by the right polarizer.
Light from right to left is blocked, since its SOP is orthogonalto the SOP permitted by the left polarizer.
![Page 30: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/30.jpg)
Lecture 5: Passive Components 朱祖勍17
Polarization-Independent Isolator
Birefringent beam displacer (spatial walk-off polarizer): splits lightinto two orthogonal SOP components.Half-wave plate: rotates the SOP by π/4 clockwise for signalsfrom left to right, and by π/4 counter-clockwise for signals fromright to left.
![Page 31: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/31.jpg)
Lecture 5: Passive Components 朱祖勍18
Optical Circulator
A circulator is similar to an isolator, except that it has more thantwo ports.A circulator can be built with multiple isolators.
![Page 32: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/32.jpg)
Lecture 5: Passive Components 朱祖勍19
Optical Circulator
1
2
3
An optical circulator can be used to distinguish the lightpropagating in different directions.
![Page 33: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/33.jpg)
Lecture 5: Passive Components 朱祖勍20
Wavelength Selection Technologies
Optical filters: select wavelength channels to pass throughand reject the rest. The rejected wavelengths may also beobtained.
Wavelength multiplexer: combines signals at differentwavelengths on its input ports onto a common output port.
Wavelength de-multiplexer: performs the opposite functionof multiplexer.
Wavelength multiplexers and de-multiplexers are used inWDM terminals, wavelength crossconnects, and wavelengthadd/drop multiplexers.
![Page 34: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/34.jpg)
Lecture 5: Passive Components 朱祖勍21
Multiplexers and Filters
Wavelength Filter
Wavelength Multiplexer
![Page 35: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/35.jpg)
Lecture 5: Passive Components 朱祖勍22
Wavelength Cross-Connect
Wavelength Cross-Connect (WXC): routes signals from aninput port to an output port based on the wavelength.
A static WXC can be realized with wavelength multiplexerand de-multiplexers. Its cross-connect pattern is fixed at thetime of the device is made.
![Page 36: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/36.jpg)
Lecture 5: Passive Components 朱祖勍23
Design Requirements on Optical Filters
Good optical filters should have low insertion loss.
The insertion loss should be independent of the SOP.
The filters’ operation should be temperature insensitive.
The filters should have very flat passbands.
The passband’s rising and falling edges in the frequencydomain should be sharp to reduce the crosstalk fromadjacent wavelength channels.
The filters should be low-costFabricate them using integrated-optic waveguide technology.
Realize them with all-fiber devices.
![Page 37: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/37.jpg)
Lecture 5: Passive Components 朱祖勍24
Cascade Filters in WDM System
Pass-band becomes narrower
Misalignment in the frequency domaincan kill signal.
Cascade 4 Times
Original Filter’s Frequency Response
OverallFrequency Response
![Page 38: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/38.jpg)
Lecture 5: Passive Components 朱祖勍25
Gratings
Device whose operation involves interferenceamong optical signals originating from the samesource but with different phase shifts.
Reflection Grating Transmission Grating
![Page 39: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/39.jpg)
Lecture 5: Passive Components 朱祖勍26
Diffraction Gratings
Multiple narrow slits (缝) are spaced equally apart on thegrating plane.
Light transmitted through each slits spreads out in all directionsdue to diffraction.
The constructive interference at a wavelength occurs amongthe light beams whose incidence angle and diffraction anglefollows the grating equation: d[sin(θ)-sin(ϕ)] = mλ.
![Page 40: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/40.jpg)
Lecture 5: Passive Components 朱祖勍27
Bragg Gratings
Bragg grating: periodic perturbation in the propagatingmedium.
The perturbation is usually a periodic variation of therefractive index of the medium.
Bragg grating is widely used in optical communications.
Bragg grating causes the reflection of the signal light due torefractive index difference, i.e., light energy is coupled fromone direction to another.
![Page 41: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/41.jpg)
Lecture 5: Passive Components 朱祖勍28
Bragg Gratings
For two waves propagating in opposite directions withpropagation constants β0 and β1, energy is coupled from oneto another if the Bragg phase-matching condition is satisfied:| β0 - β1| = 2π/Λ, where Λ is the period of the grating.
Since β0 = 2πneff/λ0, the optical signal is reflected if itswavelength satisfies λ0 = 2neff Λ, and the others pass through.
![Page 42: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/42.jpg)
Lecture 5: Passive Components 朱祖勍29
Fiber Bragg Grating
Fiber Bragg gratings (FBGs) are attractive devices due tolow-loss, ease of coupling with other fibers, polarization-insensitive …
FBGs can be made by using the photosensitivity of opticalfibers.
![Page 43: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/43.jpg)
Lecture 5: Passive Components 朱祖勍30
Wavelength Add/Drop with Fiber Bragg Gratings
Single-channel add/drop
Multiple-channel add/drop
![Page 44: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/44.jpg)
Lecture 5: Passive Components 朱祖勍31
Fabry Perot Filter
A Fabry-Perot filter consists of the cavity formed by two highlyreflective mirrors placed parallel to each other.
For an optical signal at λ, if the cavity length is l = mλ/2, all thelight waves transmitted through the right mirror add in phase.
If a wavelength λ can satisfy l = mλ/2, it is a resonantwavelength.
![Page 45: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/45.jpg)
Lecture 5: Passive Components 朱祖勍32
Fabry-Perot Filter
A is the absorption loss of each mirror, R is the reflectivity ofeach mirror, n is the refractive index of the cavity, and l is thecavity length.
The power transfer function of the Fabry-Perot filter:
![Page 46: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/46.jpg)
Lecture 5: Passive Components 朱祖勍33
Fabry Perot Filter
Free spectral range (FSR): the spectral range between twosuccessive passbands of the filter.
Full-width at half of maximum (FWHM): 3-dB bandwidth.
![Page 47: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/47.jpg)
Lecture 5: Passive Components 朱祖勍34
All-Optical Clock Recovery
Optical RZ FPF Optical clockF{
·}
T0
f0f0
F-1{·
}
SOA
All-Optical Clock Recovery
FPF output (200 ps/div)
FPF+SOA output (200 ps/div)
RF spectra of the recovered clocks
7 dB
![Page 48: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/48.jpg)
Lecture 5: Passive Components 朱祖勍35
Mach-Zehnder Interferometer
A Mach-Zehnder interferometer (MZI) is an interferometricdevice that makes use of two interfering paths of differentlengths.
Mach-Zehnder interferometers are typically constructed withtwo 3-dB couplers interconnected through two paths ofdifferent lengths.
![Page 49: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/49.jpg)
Lecture 5: Passive Components 朱祖勍36
Multi-Stage Mach-ZehnderInterferometer
MZI(ΔL)
MZI(2ΔL)
MZI(4ΔL)
MZI(8ΔL)
Stage 1
Stage 2
Stage 3
Stage 4
Overall
Frequency Response
![Page 50: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/50.jpg)
Lecture 5: Passive Components 朱祖勍37
Wavelength Multiplexer/De-Multiplexer with MZI
An MZI can be used as a 1 x 2 de-multiplexer.
Provide two wavelength channels λ1 and λ2 to makeT11(λ1) = 1 and T12(λ2) = 1, then for WDM signalwith λ1 and λ2 going into input 1, λ1 will be deliver tooutput 1, and λ2 will be deliver to output 2.
The 1 x 2 de-multiplexer is a fundamental buildingblock of More complicated de-multiplexers.
![Page 51: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/51.jpg)
Lecture 5: Passive Components 朱祖勍38
Mach-Zehnder Interferometer for O/E Modulation
Broadband Electrode
Broadband Electrode
Optical Waveguide
Data Input Termination
Light Input Light Output
![Page 52: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/52.jpg)
Lecture 5: Passive Components 朱祖勍39
Mach-Zehnder Interferometer for O/E Modulation
![Page 53: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/53.jpg)
Lecture 5: Passive Components 朱祖勍40
Arrayed Waveguide Grating
An Arrayed Waveguide Grating (AWG) is a generalizationof the Mach-Zehnder Interferometer.
It consists of two multiport couplers interconnected by anarray of waveguides.
The AWG is a device where several copies of the samesignal, but shifted in different phases, are added together.
Compared with an MZI chain, an AWG has lower loss,flatter passband, and is easier to fabricate.
![Page 54: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/54.jpg)
Lecture 5: Passive Components 朱祖勍41
Arrayed Waveguide Grating
![Page 55: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/55.jpg)
Lecture 5: Passive Components 朱祖勍42
Wavelength Cross-Connect with AWG
8 x 8 Arrayed Waveguide Grating
λ1λ2λ3λ4λ5λ6λ7λ8
12345
678
12345
678
![Page 56: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/56.jpg)
Lecture 5: Passive Components 朱祖勍43
Wavelength Cross-Connect with AWG
![Page 57: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/57.jpg)
Lecture 5: Passive Components 朱祖勍44
Wavelength Cross-Connect
WN X WNWavelength
Router(AWGR)
T_WC
T_WC
T_WC
T_WC
1
W
2
…
T_WC
T_WC
T_WC
T_WC
1
W
2
…
T_WC
T_WC
T_WC
T_WC
1
W
2
…
1
2
…
N
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…W
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…
W
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…
W
1
2
…
N
![Page 58: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/58.jpg)
Lecture 5: Passive Components 朱祖勍45
WN X WNWavelength
Router(AWGR)
T_WC
T_WC
T_WC
T_WC
1
W
2
…
T_WC
T_WC
T_WC
T_WC
1
W
2
…
T_WC
T_WC
T_WC
T_WC
1
W
2
…
1
2
…
N
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…W
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…
W
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…
W
1
2
…
N
Wavelength Cross-Connect
![Page 59: Optical Communications and Networking - Zuqing Zhu's ... · Optical Communications and Networking. ... Bi-directional distortions. Lecture 4: ... This effect is Cross-Phase Modulation](https://reader031.fdocuments.in/reader031/viewer/2022020204/5b4fde0a7f8b9a2f6e8d42fe/html5/thumbnails/59.jpg)
Lecture 5: Passive Components 朱祖勍46
WN X WNWavelength
Router(AWGR)
T_WC
T_WC
T_WC
T_WC
1
W
2
…
T_WC
T_WC
T_WC
T_WC
1
W
2
…
T_WC
T_WC
T_WC
T_WC
1
W
2
…
1
2
…
N
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…W
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…
W
F_WC & LR
F_WC & LR
F_WC & LR
F_WC & LR
12
…
W
1
2
…
N
Wavelength Cross-Connect