All-optically controlled resistive switching could offer advantages, in terms of energy dissipation and speed, for logic and data storage functions in solid-state devices. Ferroelectrics may constitute a building block of this emerging technology, when integrated in nanometric tunnel devices. The functioning of these devices, from photon absorption to the resistive switching involve a subtle interplay between electronic and optical properties, polarization effects and materials issues.
- https://www.cells.es/en/media/events/external-events/optofem2020-icmab-summer-school-on-optically-controlled-ferroelectric-memristors
- OPTOFEM2020 - ICMAB SUMMER SCHOOL ON OPTICALLY CONTROLLED FERROELECTRIC MEMRISTORS
- 2020-10-22T08:20:00+02:00
- 2020-10-23T18:40:00+02:00
- All-optically controlled resistive switching could offer advantages, in terms of energy dissipation and speed, for logic and data storage functions in solid-state devices. Ferroelectrics may constitute a building block of this emerging technology, when integrated in nanometric tunnel devices. The functioning of these devices, from photon absorption to the resistive switching involve a subtle interplay between electronic and optical properties, polarization effects and materials issues.
- What
- events
- When
- Oct 22, 2020 08:20 AM to Oct 23, 2020 06:40 PM (Europe/Madrid / UTC200)
- Where
- Online
- Contact Name
- Institut de Ciència de Materials de Barcelona (ICMAB-CSIC)
- Contact Phone
- +34 935 801 853
- Web
- Visit external website
- Add event to calendar
- iCal
This school aims at introducing the scientific knowledge, in a tutorial style, required to contribute to this emerging field.
The school is targeting an audience of PhD fellows and researchers initiating their activity on photoresponse in oxides, with interest on polar materials (ferroelectric), with applications spanning from photovoltaics to resistive switching.