1M. F. Chiang PGNET 2007

M. F. Chiang, Z. Ghassemlooy, Wai Pang Ng,

and H. Le Minh

Optical Communication Research Group

Northumbria University, United Kingdom

http://soe.unn.ac.uk/ncrlab/

Simulation of an All-Optical 1 2 SMZ Switch with a High Contrast Ratio

2M. F. Chiang PGNET 2007

Contents

Introduction

Symmetric Mach-Zehnder (SMZ)

Optical inverter based on SMZ

All-Optical 1 2 SMZ Switch with a High Contrast Ratio

Simulation Results

Conclusions

3M. F. Chiang PGNET 2007

Introduction- Research Aim

There is a growing demand for all optical switches and router at very high speed, to avoid the bottleneck imposed by the electronic switches.

All-optical switches, such as SMZs are the key components adopted for switching and routing due to their ultrafast switching time (pico- to sub-picoseconds). However, SMZs have low inter-output CR (< 10 dB).

It is essential to have a high inter-output CR switch for lower value of output crosstalk (CXT).

4M. F. Chiang PGNET 2007

Ref: www.iqe.ethz.ch/photonics

SMZ SMZ

UNIUNI TOAD TOAD

Ref: (Princeton)

Ref: (Japan)

Introduction All-Optical Switches

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Semiconductor Optical Amplifier (SOA)

Input signals (light)

Carrier density &

SOA gain (XGM)

SOA refractive index &

Induced phase (XPM)

Input signals

P

N

Injection current

SOA

6M. F. Chiang PGNET 2007

SMZ (Symmetric Mach-Zehnder)

Advantages: 1. narrow and square switching window2. compact size3. thermal stability and low power operation

Drawback: 1. Low inter-output CR (< 10 dB) due to the problem of maintaining the same

phase shift.

Undesired signal

7M. F. Chiang PGNET 2007

S’(t+π/2)

S’(t)

S’’(t)

S’’’(t)

S’’’(t+π/2)

Pout,1(t)=S’’’(t)+S’’’(t+π/2+π/2)

Pout,2(t)=S’’’(t+π/2)+S’’’(t+π/2)

Pin(t)=S(t)

Signals emerge from output2

S’(t+π/2)

S’(t)

S’’(t)

S’’(t+π/2)

S’’’(t+ π)

S’’’(t+π/2)

Pout,1(t)=S’’’(t + π)+S’’’(t+π/2+π/2)

Pout,2(t)=S’’’(t+π/2 + π)+S’’’(t+π/2)

Pin(t)=S(t)

Signals emerge form output1CP1

π

Case 1: Without CP (SMZ is balanced)

Case 2: With CP1 only (SMZ unbalanced) Case 3: With both CP1&CP2

(SMZ is balanced again)

CP2π

Pout,2(t)=S’’’(t+π/2 + π)+S’’’(t+π/2 + π)

Pout,1(t)=S’’’(t + π)+S’’’(t+π/2+π/2 + π)

Signals emerge from output2 again

S’’’(t+π/2+ π )

Symmetric Mach-Zehnder (SMZ)Case 1: Without CP (SMZ is balanced)

Case 2: With CP1 only (SMZ unbalanced)

PC2

Output2

Output1

Coupler4

Coupler3

Coupler2

Coupler1

SOA2

SOA1 PBS

PC1

PBSS’’(t+π/2)

PC2

Output2

Output1

Coupler4

Coupler3

Coupler2

Coupler1

SOA2

SOA1 PBS

PC1

PBS

PC 3-dB coupler PBS

8M. F. Chiang PGNET 2007

All-Optical 1 2 SMZ Switch with a High Contrast Ratio

SMZ1

SMZ2

inverter CP

CP

CP

Output1 (SMZ1_op1) Input packets

CLK CEM

SMZ1_op2

Output2 (SMZ2_op1)

CEM: clock extraction module

low inter-output CR (< 10 dB)

Improved CR (> 32 dB)

9M. F. Chiang PGNET 2007

All-optical inverter based on SMZ

A A bar

1 0

0 1

SOA

SOA

Input (CLK)

CP 1 (CLK)

CP 2 (A)

Output (A bar)

10M. F. Chiang PGNET 2007

Simulation Results-Simulation Parameter

Simulation Tool: Virtual Photonic Inc. (VPI)

Parameter and description Value

Inject current 0.15 A

Length 500 x 10-6 m

Width 3 x 10-6 m

Height 80 x 10-9 m

Confinement factor 0.15

Differential gain 2.78 x 10-20 m2

Carrier density at transparency 1.4 x 1024 m-3

Initial carrier density 3 x 1024 m-3

Linewidth enhancement factor 5

Recombine constant A 1.43 x 108 s-1

Recombine constant B 1 x 10-16 m3s-1

Recombine constant C 3 x 10-41 m6s-1

TABLE ISOA SIMULATION PARAMETER

TABLE IISIGNAL AND CONTROL PULSES

DEFAULT PARAMETERS

Parameter and description Value

Data packet bit rate – 1/Tb 160 Gb/s

Packet payload length 1 bytes (8 bits)

Packet guard time 1.5 ns

Wavelength of data packet 1554 nm

Data & control pulse widths – FWHM 2 ps

Bit duration Tb 6.25 ps

Control signal (CP) power 40 mW

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Simulation Results-Time Waveforms

Output waveforms observed at the proposed 12 switch

Input packets

Control pulse

Output1

Output2

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Simulation Results-Time Waveforms

Output CR ratio observed at the proposed 12 switch

CR (< 10 dB)

The improvedCR (> 30 dB)

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Simulation Results-The contrast ratio (CR) against the

input packet power

0

5

10

15

20

25

30

35

40

45

50

0 1 2 3 4 5 10 12

Input packet power (dBm)

CR

(dB

) CR of A bar

CR at output1

CR at output2

CP

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Conclusion In this paper, the advantages and drawbacks of SMZs were introduced.

The principle of the proposed all-optical 1 2 SMZ switch with a high contrast ratio was explained.

It was shown that a high Inter-output CR ( > 32 dB) was achieved over a wide range of input packet power (12 dB).

The proposed 12 switch offered an improvement in the inter-output CR of ~ 25 dB in comparison with a single SMZ switch. The proposed switch could potentially be adopted for high-speed signal processing and packet routing in all-optical networks.

15M. F. Chiang PGNET 2007

Special ThanksSpecial Thanks for

Prof. Fary Ghassemlooy

Dr. Wai Pang Ng

Mr. Hoa Le Minh

All colleagues in NCRL

&

Your Attention

16M. F. Chiang PGNET 2007

Thank You !

Question, please ?