An HCMT model of optical microring-resonators

Manfred Hammer

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademic

7 Citations (Scopus)
16 Downloads (Pure)

Abstract

Analytical modes of the bus and cavity cores are combined into a 2-D hybrid analytical / numerical coupled mode theory (HCMT) model of integrated optical ring-resonators. The variational technique generates 1-D FEM-discretized solutions for the amplitude functions in their natural Cartesian and polar coordinates.
Original languageUndefined
Title of host publication18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010
Place of PublicationCambridge, UK
PublisherUniversity of Cambridge
Pages69
Number of pages1
ISBN (Print)978-0-9541146-2-6
Publication statusPublished - 10 Apr 2010
Event19th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010 - Cambridge, United Kingdom
Duration: 9 Apr 201010 Apr 2010
Conference number: 19
https://www.owtnm-workshop.org/

Publication series

Name
PublisherUniversity of Cambridge

Workshop

Workshop19th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010
Abbreviated titleOWTNM
CountryUnited Kingdom
CityCambridge
Period9/04/1010/04/10
Internet address

Keywords

  • METIS-275836
  • EWI-19264
  • IR-75565

Cite this

Hammer, M. (2010). An HCMT model of optical microring-resonators. In 18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010 (pp. 69). Cambridge, UK: University of Cambridge.
Hammer, Manfred. / An HCMT model of optical microring-resonators. 18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010. Cambridge, UK : University of Cambridge, 2010. pp. 69
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abstract = "Analytical modes of the bus and cavity cores are combined into a 2-D hybrid analytical / numerical coupled mode theory (HCMT) model of integrated optical ring-resonators. The variational technique generates 1-D FEM-discretized solutions for the amplitude functions in their natural Cartesian and polar coordinates.",
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author = "Manfred Hammer",
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isbn = "978-0-9541146-2-6",
publisher = "University of Cambridge",
pages = "69",
booktitle = "18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010",
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Hammer, M 2010, An HCMT model of optical microring-resonators. in 18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010. University of Cambridge, Cambridge, UK, pp. 69, 19th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010, Cambridge, United Kingdom, 9/04/10.

An HCMT model of optical microring-resonators. / Hammer, Manfred.

18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010. Cambridge, UK : University of Cambridge, 2010. p. 69.

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademic

TY - GEN

T1 - An HCMT model of optical microring-resonators

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PY - 2010/4/10

Y1 - 2010/4/10

N2 - Analytical modes of the bus and cavity cores are combined into a 2-D hybrid analytical / numerical coupled mode theory (HCMT) model of integrated optical ring-resonators. The variational technique generates 1-D FEM-discretized solutions for the amplitude functions in their natural Cartesian and polar coordinates.

AB - Analytical modes of the bus and cavity cores are combined into a 2-D hybrid analytical / numerical coupled mode theory (HCMT) model of integrated optical ring-resonators. The variational technique generates 1-D FEM-discretized solutions for the amplitude functions in their natural Cartesian and polar coordinates.

KW - METIS-275836

KW - EWI-19264

KW - IR-75565

M3 - Conference contribution

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BT - 18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010

PB - University of Cambridge

CY - Cambridge, UK

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Hammer M. An HCMT model of optical microring-resonators. In 18th International Workshop on Optical Waveguide Theory and Numerical Modelling, OWTNM 2010. Cambridge, UK: University of Cambridge. 2010. p. 69