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GELATO aims at designing highly efficient thermionic cooling nano-devices. It is motivated by the urgent technological need to control Joule heating in nanoelectronics in a context of energy shortage
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  • Tasks
    • Project context and coordination
    • Temperature analysis in double barrier heterostructure
    • Conception of disruptive nanocoolers
    • Dissemination
  • News
  • Partners
    • IM2NP
    • LIMMS
    • LPENS
    • IPVF
  • Publications
Search:
  • Tasks
    • Project context and coordination
    • Temperature analysis in double barrier heterostructure
    • Conception of disruptive nanocoolers
    • Dissemination
  • News
  • Partners
    • IM2NP
    • LIMMS
    • LPENS
    • IPVF
  • Publications

Task 1

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Fig.1-a Representation of the semiconductor refrigerant heterostructure [Cha2005]. The quantum well of GaAs is cooled by injecting cold electrons (in blue) via resonant tunneling, and by extracting the hot carriers above the thicker barrier (in red).

Task 1By Virginie7 January 2022

Representation of the semiconductor refrigerant heterostructure

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Fig.1-b Schematic diagram for the heat flow in the electron-lattice system. The concepts of evaporative and thermionic cooling are illustrated.

Task 1By Virginie7 January 2022

Schematic diagram for the heat flow in the electron-lattice system

gelato-nanocoolers
Conception Virginie Favre - Gelato 2022 - All rights reserved - Legal notice
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