Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence

Y. Tang; A. M. Mintairov; J. L. Merz; V. Tokranov; S. Oktyabrsky

doi:10.1109/NANO.2005.1500685

Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence

Y. Tang
, A. M. Mintairov
, J. L. Merz
, V. Tokranov
, S. Oktyabrsky

University at Albany

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

5 Scopus citations

Abstract

In this work, hexagonal defect nanocavities ("H1" and "H2") in two-dimensional photonic crystal slabs were fabricated in a half wavelength-thick semiconductor waveguide embedded with quantum dots. We characterized the cavity modes with polarization sensitive microphotoluminescence. The polarization property of the spontaneous emission was shown to be an effective approach for detecting the symmetry of the modes, from which the mode structure for an H2-cavity was experimentally verified for the first time.

Original language	English
Title of host publication	2005 5th IEEE Conference on Nanotechnology
Publisher	IEEE Computer Society
Pages	377-380
Number of pages	4
ISBN (Print)	0780391993, 9780780391994
DOIs	https://doi.org/10.1109/NANO.2005.1500685
State	Published - 2005
Event	2005 5th IEEE Conference on Nanotechnology - Nagoya, Japan Duration: Jul 11 2005 → Jul 15 2005

Publication series

Name	2005 5th IEEE Conference on Nanotechnology
Volume	1

Conference

Conference	2005 5th IEEE Conference on Nanotechnology
Country/Territory	Japan
City	Nagoya
Period	07/11/05 → 07/15/05

Keywords

Nanocavity
Photonic crystals
Semiconductor quantum dots

Access to Document

10.1109/NANO.2005.1500685

Cite this

Tang, Y., Mintairov, A. M., Merz, J. L., Tokranov, V., & Oktyabrsky, S. (2005). Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence. In 2005 5th IEEE Conference on Nanotechnology (pp. 377-380). Article 1500685 (2005 5th IEEE Conference on Nanotechnology; Vol. 1). IEEE Computer Society. https://doi.org/10.1109/NANO.2005.1500685

@inproceedings{3c84282562b9496abe3a68a54b05ba6d,

title = "Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence",

abstract = "In this work, hexagonal defect nanocavities ({"}H1{"} and {"}H2{"}) in two-dimensional photonic crystal slabs were fabricated in a half wavelength-thick semiconductor waveguide embedded with quantum dots. We characterized the cavity modes with polarization sensitive microphotoluminescence. The polarization property of the spontaneous emission was shown to be an effective approach for detecting the symmetry of the modes, from which the mode structure for an H2-cavity was experimentally verified for the first time.",

keywords = "Nanocavity, Photonic crystals, Semiconductor quantum dots",

author = "Y. Tang and Mintairov, \{A. M.\} and Merz, \{J. L.\} and V. Tokranov and S. Oktyabrsky",

year = "2005",

doi = "10.1109/NANO.2005.1500685",

language = "English",

isbn = "0780391993",

series = "2005 5th IEEE Conference on Nanotechnology",

publisher = "IEEE Computer Society",

pages = "377--380",

booktitle = "2005 5th IEEE Conference on Nanotechnology",

note = "2005 5th IEEE Conference on Nanotechnology ; Conference date: 11-07-2005 Through 15-07-2005",

}

Tang, Y, Mintairov, AM, Merz, JL, Tokranov, V & Oktyabrsky, S 2005, Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence. in 2005 5th IEEE Conference on Nanotechnology., 1500685, 2005 5th IEEE Conference on Nanotechnology, vol. 1, IEEE Computer Society, pp. 377-380, 2005 5th IEEE Conference on Nanotechnology, Nagoya, Japan, 07/11/05. https://doi.org/10.1109/NANO.2005.1500685

Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence. / Tang, Y.; Mintairov, A. M.; Merz, J. L. et al.
2005 5th IEEE Conference on Nanotechnology. IEEE Computer Society, 2005. p. 377-380 1500685 (2005 5th IEEE Conference on Nanotechnology; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence

AU - Tang, Y.

AU - Mintairov, A. M.

AU - Merz, J. L.

AU - Tokranov, V.

AU - Oktyabrsky, S.

PY - 2005

Y1 - 2005

N2 - In this work, hexagonal defect nanocavities ("H1" and "H2") in two-dimensional photonic crystal slabs were fabricated in a half wavelength-thick semiconductor waveguide embedded with quantum dots. We characterized the cavity modes with polarization sensitive microphotoluminescence. The polarization property of the spontaneous emission was shown to be an effective approach for detecting the symmetry of the modes, from which the mode structure for an H2-cavity was experimentally verified for the first time.

AB - In this work, hexagonal defect nanocavities ("H1" and "H2") in two-dimensional photonic crystal slabs were fabricated in a half wavelength-thick semiconductor waveguide embedded with quantum dots. We characterized the cavity modes with polarization sensitive microphotoluminescence. The polarization property of the spontaneous emission was shown to be an effective approach for detecting the symmetry of the modes, from which the mode structure for an H2-cavity was experimentally verified for the first time.

KW - Nanocavity

KW - Photonic crystals

KW - Semiconductor quantum dots

UR - https://www.scopus.com/pages/publications/33746989802

U2 - 10.1109/NANO.2005.1500685

DO - 10.1109/NANO.2005.1500685

M3 - Conference contribution

SN - 0780391993

SN - 9780780391994

T3 - 2005 5th IEEE Conference on Nanotechnology

SP - 377

EP - 380

BT - 2005 5th IEEE Conference on Nanotechnology

PB - IEEE Computer Society

T2 - 2005 5th IEEE Conference on Nanotechnology

Y2 - 11 July 2005 through 15 July 2005

ER -

Characterization of 2D-photonic crystal nanocavities by polarization-dependent photoluminescence

Abstract

Publication series

Conference

Keywords

Access to Document

Other files and links

Fingerprint

Cite this