Summary
Much of the major technological breakthroughs occurring in the last few decades rely on our enhanced capability to control and manipulate two particles: electrons (both charge and spin) and photons. Achieving a similar degree of control over phonons would be extraordinarily valuable as we will be able to channel thermal energy at will –thus propelling new possibilities for energy management– as well as the development of a completely novel technology for logic, data storage devices and computing mechanisms based on phonons.
The goal of this proposal is to design a conceptually new device: a phonon valve, a nanostructured system to control phonon transport at will by an external field. To carry out this idea we propose to use ferroelectric oxide materials as valves, in particular engineering suitable configurations of ferroelectric-ferroelastic domain walls in multilayer nanostructures. If successful, the realization of this project would represent a major qualitative leap forward in an emerging new technology: “Phononics”. Moreover, it will contribute to progress in the field of physics and properties of ferroic domain walls.
The goal of this proposal is to design a conceptually new device: a phonon valve, a nanostructured system to control phonon transport at will by an external field. To carry out this idea we propose to use ferroelectric oxide materials as valves, in particular engineering suitable configurations of ferroelectric-ferroelastic domain walls in multilayer nanostructures. If successful, the realization of this project would represent a major qualitative leap forward in an emerging new technology: “Phononics”. Moreover, it will contribute to progress in the field of physics and properties of ferroic domain walls.
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| Web resources: | https://cordis.europa.eu/project/id/708129 |
| Start date: | 26-09-2016 |
| End date: | 25-09-2019 |
| Total budget - Public funding: | 239 191,20 Euro - 239 191,00 Euro |
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Original description
Much of the major technological breakthroughs occurring in the last few decades rely on our enhanced capability to control and manipulate two particles: electrons (both charge and spin) and photons. Achieving a similar degree of control over phonons would be extraordinarily valuable as we will be able to channel thermal energy at will –thus propelling new possibilities for energy management– as well as the development of a completely novel technology for logic, data storage devices and computing mechanisms based on phonons.The goal of this proposal is to design a conceptually new device: a phonon valve, a nanostructured system to control phonon transport at will by an external field. To carry out this idea we propose to use ferroelectric oxide materials as valves, in particular engineering suitable configurations of ferroelectric-ferroelastic domain walls in multilayer nanostructures. If successful, the realization of this project would represent a major qualitative leap forward in an emerging new technology: “Phononics”. Moreover, it will contribute to progress in the field of physics and properties of ferroic domain walls.
Status
CLOSEDCall topic
MSCA-IF-2015-GFUpdate Date
28-04-2024
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