Presentation is loading. Please wait.

Presentation is loading. Please wait.

Polarization Converter Design Paper Review Woojin Jo Si Photonics

Published byBlaze Holt Modified over 7 years ago

Similar presentations

Presentation on theme: "Polarization Converter Design Paper Review Woojin Jo Si Photonics"— Presentation transcript:

1 Polarization Converter Design 2015-12-15 Paper Review Woojin Jo Si Photonics 2015-02 1

2  For two modes in a waveguide with two different refractive indices (n1 and n2),  The modes will accumulate different phase after the propagation of a certain length (L) due to the difference in the effective indices (neff).  If the propagation length is long enough to accumulate a phase difference of pi, then L becomes Polarization Conversion Background Woojin Jo YONSEI Mixed Signal IC Lab. 2

3  For the polarization converter, the FDE solver can be used to identify the regions where mode-crossings occur.  Run a number of FDE simulations, varying the waveguide width.  At each step, the n eff are subtracted by the n eff of the slab.  Choose in/output taper width parameter from FDE result.  Run EME simulation to findout light propagation in this device.  Choose adequate the length of this device from EME results. Simulation Process Woojin Jo YONSEI Mixed Signal IC Lab. 3

4  Make simple waveguide structure.  Run a number of FDE simulations, varying the waveguide width from 0.5um to 3um.  Calculate the difference between n eff of the slab and n eff of the ridge. Simulation Setup Woojin Jo YONSEI Mixed Signal IC Lab. 4

5 FDE Analysis Results Woojin Jo YONSEI Mixed Signal IC Lab. 5  TE1: changes n eff of TE1 mode from 0.28 to 0.06.  Mode crossing occurs at 0.9um  Input Waveguide width= 1.5um  Output Waveguide width= 0.8um

6 Simulation Setup Woojin Jo YONSEI Mixed Signal IC Lab. 6  The device includes the input and output ridge waveguides, connected by a taper with 1.5um and 0.8um as the waveguide input and output respectively.  Track 3 modes: (TE0, TE1, TM0) at 1.5um, (TE0, TM0, TE1) at 0.8um  We will scan the length of this taper and track how efficiently the TE1 mode can be converted into the fundamental TM mode.

7 EME Analysis Setup Woojin Jo YONSEI Mixed Signal IC Lab. 7

8 EME Analysis Results Woojin Jo YONSEI Mixed Signal IC Lab. 8 S42: TE1->TE0 S52: TE1->TM0 S62: TE1->TE1 At L=250um The TE1 mode is almost completely transferred to the TM0 mode.

Download ppt "Polarization Converter Design Paper Review Woojin Jo Si Photonics"

Similar presentations

Ischia, 21-23 giugno 2006Riunione Annuale GE 2006 R. C. Zaccuri, M. Iodice, G. Coppola, I. Rendina. Istituto per la Microelettronica e Microsistemi, Sezione.

Ischia, giugno 2006Riunione Annuale GE 2006 R. C. Zaccuri, M. Iodice, G. Coppola, I. Rendina. Istituto per la Microelettronica e Microsistemi, Sezione.
Y x z a1 y x z 0a x n1 n2 n3 M1M2M3 k1 k2 k3 TE mode X=0 Continuous.

Y x z a1 y x z 0a x n1 n2 n3 M1M2M3 k1 k2 k3 TE mode X=0 Continuous.
Light Waves and Polarization Xavier Fernando Ryerson Communications Lab

Light Waves and Polarization Xavier Fernando Ryerson Communications Lab
PETS components and waveguide connections CLIC Workshop 2007 David Carrillo.

PETS components and waveguide connections CLIC Workshop 2007 David Carrillo.
Min Hyeong KIM High-Speed Circuits and Systems Laboratory E.E. Engineering at YONSEI UNIVERITY 2011. 3. 21. Y. A. Vlasov and S. J. McNab.

Min Hyeong KIM High-Speed Circuits and Systems Laboratory E.E. Engineering at YONSEI UNIVERITY Y. A. Vlasov and S. J. McNab.
Performance of MPPC using laser system Photon sensor KEK 2005.12.26-27 Niigata university, ILC calorimeter group Sayaka IBA, Hiroaki ONO, Paul.

Performance of MPPC using laser system Photon sensor KEK Niigata university, ILC calorimeter group Sayaka IBA, Hiroaki ONO, Paul.
Optical Field Mixing. Oscillating Polarisation Optical polarisation Fundamental polarisation SH Polarisation Constant (dc) polarisation.

Optical Field Mixing. Oscillating Polarisation Optical polarisation Fundamental polarisation SH Polarisation Constant (dc) polarisation.
Institute for Plasma Research MURI 99 Frequency Doubling Harmonic Gyro-TWT’s (development and experimental studies) We will complete the optimization of.

Institute for Plasma Research MURI 99 Frequency Doubling Harmonic Gyro-TWT’s (development and experimental studies) We will complete the optimization of.
EE 230: Optical Fiber Communication Lecture 4

EE 230: Optical Fiber Communication Lecture 4
5-4: SI Fiber Modes  Consider the cylindrical coordinates  Assume propagation along z,  Wave equation results  Using separation of variables  is integer.

5-4: SI Fiber Modes  Consider the cylindrical coordinates  Assume propagation along z,  Wave equation results  Using separation of variables  is integer.
Radius of Curvature: 900 micron Fig. 1 a.) Snell’s Law b.) Total Internal Reflection a. b. Modeling & Fabrication of Ridge Waveguides and their Comparison.

Radius of Curvature: 900 micron Fig. 1 a.) Snell’s Law b.) Total Internal Reflection a. b. Modeling & Fabrication of Ridge Waveguides and their Comparison.
Design of a Control Workstation for Controller Algorithm Testing Aaron Mahaffey Dave Tastsides Dr. Dempsey.

Design of a Control Workstation for Controller Algorithm Testing Aaron Mahaffey Dave Tastsides Dr. Dempsey.
Ch 4: Integrated Optic Waveguides Integrated optics (optoelectronics, photonics) is the technology of constructing optic devices & circuits on substrates.

Ch 4: Integrated Optic Waveguides Integrated optics (optoelectronics, photonics) is the technology of constructing optic devices & circuits on substrates.
Monireh Moayedi Pour Fard Photonics system group McGill University July 2012.

Monireh Moayedi Pour Fard Photonics system group McGill University July 2012.
Photonic Devices - Couplers Optical fibre couplers A basic photonic device used to split or combine light to or from different fibres. A building block.

Photonic Devices - Couplers Optical fibre couplers A basic photonic device used to split or combine light to or from different fibres. A building block.
Coherently Coupled Optical Waveguide 報 告 者 :陳 嘉 怜 指導教授:王 維 新 博 士.

Coherently Coupled Optical Waveguide 報 告 者 :陳 嘉 怜 指導教授:王 維 新 博 士.
May 25, 2007Bilkent University, Physics Department1 Optical Design of Waveguides for Operation in the Visible and Infrared Mustafa Yorulmaz Bilkent University,

May 25, 2007Bilkent University, Physics Department1 Optical Design of Waveguides for Operation in the Visible and Infrared Mustafa Yorulmaz Bilkent University,
RF COMPONENTS USING OVER-MODED RECTANGULAR WAVEGUIDES FOR THE NEXT LINEAR COLLIDER MULTI- MODED DELAY LINE RF DISTRIBUTION SYSTEM S. G. Tantawi, N. M.

RF COMPONENTS USING OVER-MODED RECTANGULAR WAVEGUIDES FOR THE NEXT LINEAR COLLIDER MULTI- MODED DELAY LINE RF DISTRIBUTION SYSTEM S. G. Tantawi, N. M.
FIBER PROPERTIES Transmission characteristics of a fiber depends on two important phenomena Attenuation Dispersion Attenuation or transmission loss Much.

FIBER PROPERTIES Transmission characteristics of a fiber depends on two important phenomena Attenuation Dispersion Attenuation or transmission loss Much.
Lecture 6.

Lecture 6.

Similar presentations

Ads by Google