Analysis of Lasing in Dye-Doped Photonic Crystals

Recently, we experimentally demonstrated room-temperature lasing of self-assembled opal photonic crystal (PhC) made of rhodamine-B-doped polystyrene colloids. Here, we explain this experimental observations by analyzing the phenomenon of light amplification in dye-activated PhCs via a complex-valued...
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Autor*in:	M. Srinivas Reddy [verfasserIn] Sunita Kedia [verfasserIn] Ramarao Vijaya [verfasserIn] Alok Kumar Ray [verfasserIn] Sucharita Sinha [verfasserIn] Ivan D. Rukhlenko [verfasserIn] Malin Premaratne [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2013

Schlagwörter:	Photonic crystals (PhCs) photonic crystal lasers dye lasers

Übergeordnetes Werk:	In: IEEE Photonics Journal - IEEE, 2015, 5(2013), 1, Seite 4700409-4700409
Übergeordnetes Werk:	volume:5 ; year:2013 ; number:1 ; pages:4700409-4700409

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.1109/JPHOT.2013.2241754

Katalog-ID:	DOAJ051639238

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authorswithroles_txt_mv	M. Srinivas Reddy @@aut@@ Sunita Kedia @@aut@@ Ramarao Vijaya @@aut@@ Alok Kumar Ray @@aut@@ Sucharita Sinha @@aut@@ Ivan D. Rukhlenko @@aut@@ Malin Premaratne @@aut@@
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callnumber-first	T - Technology
author	M. Srinivas Reddy
spellingShingle	M. Srinivas Reddy misc TA1501-1820 misc QC350-467 misc Photonic crystals (PhCs) misc photonic crystal lasers misc dye lasers misc Applied optics. Photonics misc Optics. Light Analysis of Lasing in Dye-Doped Photonic Crystals
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topic_title	TA1501-1820 QC350-467 Analysis of Lasing in Dye-Doped Photonic Crystals Photonic crystals (PhCs) photonic crystal lasers dye lasers
topic	misc TA1501-1820 misc QC350-467 misc Photonic crystals (PhCs) misc photonic crystal lasers misc dye lasers misc Applied optics. Photonics misc Optics. Light
topic_unstemmed	misc TA1501-1820 misc QC350-467 misc Photonic crystals (PhCs) misc photonic crystal lasers misc dye lasers misc Applied optics. Photonics misc Optics. Light
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title	Analysis of Lasing in Dye-Doped Photonic Crystals
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title_full	Analysis of Lasing in Dye-Doped Photonic Crystals
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title_sort	analysis of lasing in dye-doped photonic crystals
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title_auth	Analysis of Lasing in Dye-Doped Photonic Crystals
abstract	Recently, we experimentally demonstrated room-temperature lasing of self-assembled opal photonic crystal (PhC) made of rhodamine-B-doped polystyrene colloids. Here, we explain this experimental observations by analyzing the phenomenon of light amplification in dye-activated PhCs via a complex-valued permittivity of the colloids. We show that the lasing is facilitated by the enhanced distributed feedback due to the reduced group velocity in the vicinity of the photonic band edge. This simple approach to the analysis of PhC lasing behavior allows us to calculate the lasing wavelength in close agreement with the experimental value. It also enables the estimation of gain coefficient required for lasing and may prove useful in design of compact PhC-based lasers.
abstractGer	Recently, we experimentally demonstrated room-temperature lasing of self-assembled opal photonic crystal (PhC) made of rhodamine-B-doped polystyrene colloids. Here, we explain this experimental observations by analyzing the phenomenon of light amplification in dye-activated PhCs via a complex-valued permittivity of the colloids. We show that the lasing is facilitated by the enhanced distributed feedback due to the reduced group velocity in the vicinity of the photonic band edge. This simple approach to the analysis of PhC lasing behavior allows us to calculate the lasing wavelength in close agreement with the experimental value. It also enables the estimation of gain coefficient required for lasing and may prove useful in design of compact PhC-based lasers.
abstract_unstemmed	Recently, we experimentally demonstrated room-temperature lasing of self-assembled opal photonic crystal (PhC) made of rhodamine-B-doped polystyrene colloids. Here, we explain this experimental observations by analyzing the phenomenon of light amplification in dye-activated PhCs via a complex-valued permittivity of the colloids. We show that the lasing is facilitated by the enhanced distributed feedback due to the reduced group velocity in the vicinity of the photonic band edge. This simple approach to the analysis of PhC lasing behavior allows us to calculate the lasing wavelength in close agreement with the experimental value. It also enables the estimation of gain coefficient required for lasing and may prove useful in design of compact PhC-based lasers.
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title_short	Analysis of Lasing in Dye-Doped Photonic Crystals
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