Biomimicry designs for passive optical solutions for nanoscale radiative cooling applications

Name: Biomimicry designs for passive optical solutions for nanoscale radiative cooling applications
Author: Didari, Azadeh, Mengüç, Mustafa Pınar

İsim	Biomimicry designs for passive optical solutions for nanoscale radiative cooling applications
Yazar	Didari, Azadeh, Mengüç, Mustafa Pınar
Basım Tarihi:	2018
Basım Yeri	- SPIE
Konu	Nano-scale radiative cooling, Phononic metasurfaces, Biomimicry designs, Morpho butterfly, Finite difference time domain method
Tür	Belge
Dil	İngilizce
Dijital	Evet
Yazma	Hayır
Kütüphane:	Özyeğin Üniversitesi
Demirbaş Numarası	978-1-5106-2034-6
Kayıt Numarası	59cbc8fe-9373-425d-9ac6-d432d33956f9
Lokasyon	Mechanical Engineering
Tarih	2018
Örnek Metin	Inspired by the mechanism of the wings of Morpho butterfly, here we propose biomimicry designs which have the potential to be used for radiative cooling purposes. We numerically analyzed the spontaneous emission at near-field and determined radiative heat flux at nano-scale in order to investigate the impact of geometric variations and material selection in these systems. Our findings suggest that these metasurfaces which support phononic surface waves, can be used to tailor radiative heat transfer at nano-scale in the atmospheric transparency window (8-13 mu m) within the infrared regime.
Editör	Lakhtakia, A., Mackay, T. G.
Cilt	10731

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Biomimicry designs for passive optical solutions for nanoscale radiative cooling applications

Yazar Didari, Azadeh, Mengüç, Mustafa Pınar

Basım Tarihi 2018

Basım Yeri - SPIE

Konu Nano-scale radiative cooling, Phononic metasurfaces, Biomimicry designs, Morpho butterfly, Finite difference time domain method

Tür Belge

Dil İngilizce

Dijital Evet

Yazma Hayır

Kütüphane Özyeğin Üniversitesi

Demirbaş Numarası 978-1-5106-2034-6

Kayıt Numarası 59cbc8fe-9373-425d-9ac6-d432d33956f9

Lokasyon Mechanical Engineering

Tarih 2018

Örnek Metin Inspired by the mechanism of the wings of Morpho butterfly, here we propose biomimicry designs which have the potential to be used for radiative cooling purposes. We numerically analyzed the spontaneous emission at near-field and determined radiative heat flux at nano-scale in order to investigate the impact of geometric variations and material selection in these systems. Our findings suggest that these metasurfaces which support phononic surface waves, can be used to tailor radiative heat transfer at nano-scale in the atmospheric transparency window (8-13 mu m) within the infrared regime.

Editör Lakhtakia, A., Mackay, T. G.

Cilt 10731