Photonic bandgap crystal resonator enhanced, laser controlled modulations of optical interconnects for photonic integrated circuits

Selin H.G. Teo; A. Q. Liu; J. B. Zhang; M. H. Hong; J. Singh; M. B. Yu; N. Singh; G. Q. Lo

doi:10.1364/OE.16.007842

Photonic bandgap crystal resonator enhanced, laser controlled modulations of optical interconnects for photonic integrated circuits

Selin H.G. Teo
, A. Q. Liu
, J. B. Zhang
, M. H. Hong
, J. Singh
, M. B. Yu
, N. Singh
, G. Q. Lo

Research output: Journal article publication › Journal article › Academic research › peer-review

20 Citations (Scopus)

Abstract

Ultrafast high-density photonic integrated circuit devices (PICDs) are not easily obtained using traditional index-guiding mechanisms. In this paper, photonic bandgap crystal resonator enhanced, laser-controlled modulations of optical interconnect PICDs were achieved in slab-type mix-guiding configuration - through developed CMOS-compatible processing technologies. The devices, with smallest critical dimensions of 90nm have footprints of less than 5×5μm². Quality-factors an order larger than previously realized was achieved. Through use of effective coupling structures; simultaneous alignment for probing and pumping laser beams, optical measurements of both instantaneous free carriers induced device modulations were obtained together with thermo-optical effects characterizations.

Original language	English
Pages (from-to)	7842-7848
Number of pages	7
Journal	Optics Express
Volume	16
Issue number	11
DOIs	https://doi.org/10.1364/OE.16.007842
Publication status	Published - 26 May 2008
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OE.16.007842

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title = "Photonic bandgap crystal resonator enhanced, laser controlled modulations of optical interconnects for photonic integrated circuits",

abstract = "Ultrafast high-density photonic integrated circuit devices (PICDs) are not easily obtained using traditional index-guiding mechanisms. In this paper, photonic bandgap crystal resonator enhanced, laser-controlled modulations of optical interconnect PICDs were achieved in slab-type mix-guiding configuration - through developed CMOS-compatible processing technologies. The devices, with smallest critical dimensions of 90nm have footprints of less than 5×5μm2. Quality-factors an order larger than previously realized was achieved. Through use of effective coupling structures; simultaneous alignment for probing and pumping laser beams, optical measurements of both instantaneous free carriers induced device modulations were obtained together with thermo-optical effects characterizations.",

author = "Teo, \{Selin H.G.\} and Liu, \{A. Q.\} and Zhang, \{J. B.\} and Hong, \{M. H.\} and J. Singh and Yu, \{M. B.\} and N. Singh and Lo, \{G. Q.\}",

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AU - Teo, Selin H.G.

AU - Liu, A. Q.

AU - Zhang, J. B.

AU - Hong, M. H.

AU - Singh, J.

AU - Yu, M. B.

AU - Singh, N.

AU - Lo, G. Q.

PY - 2008/5/26

Y1 - 2008/5/26

N2 - Ultrafast high-density photonic integrated circuit devices (PICDs) are not easily obtained using traditional index-guiding mechanisms. In this paper, photonic bandgap crystal resonator enhanced, laser-controlled modulations of optical interconnect PICDs were achieved in slab-type mix-guiding configuration - through developed CMOS-compatible processing technologies. The devices, with smallest critical dimensions of 90nm have footprints of less than 5×5μm2. Quality-factors an order larger than previously realized was achieved. Through use of effective coupling structures; simultaneous alignment for probing and pumping laser beams, optical measurements of both instantaneous free carriers induced device modulations were obtained together with thermo-optical effects characterizations.

AB - Ultrafast high-density photonic integrated circuit devices (PICDs) are not easily obtained using traditional index-guiding mechanisms. In this paper, photonic bandgap crystal resonator enhanced, laser-controlled modulations of optical interconnect PICDs were achieved in slab-type mix-guiding configuration - through developed CMOS-compatible processing technologies. The devices, with smallest critical dimensions of 90nm have footprints of less than 5×5μm2. Quality-factors an order larger than previously realized was achieved. Through use of effective coupling structures; simultaneous alignment for probing and pumping laser beams, optical measurements of both instantaneous free carriers induced device modulations were obtained together with thermo-optical effects characterizations.

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DO - 10.1364/OE.16.007842

M3 - Journal article

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AN - SCOPUS:44649130723

SN - 1094-4087

VL - 16

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EP - 7848

JO - Optics Express

JF - Optics Express

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ER -

Photonic bandgap crystal resonator enhanced, laser controlled modulations of optical interconnects for photonic integrated circuits

Abstract

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