Electronics, Photonics and Magnetic Devices

TheElectronics, Photonics and Magnetic Devices (EPMD) Programsupports innovative research on novel devices based on the principles of electronics, optics and photonics, optoelectronics, magnetics, opto- and electromechanics, electromagnetics, and related physical phenomena. EPMD’s goal is to advance the frontiers of micro-, nano- and quantum-based devices operating within the electromagnetic spectrum and contributing to a broad range of application domains including information and communications, imaging and sensing, healthcare, Internet of Things, energy, infrastructure, and manufacturing. The program encourages research based on emerging technologies for miniaturization, integration, and energy efficiency as well as novel material-based devices with new functionalities, improved efficiency, flexibility, tunability, wearability, and enhanced reliability.


Areas managed by Program Directors (please contact Program Directors listed in the EPMD staff directory for areas of interest):


Electronic Devices


Nanoelectronics
Wide/Extreme- and Narrow-Bandgap, Semiconductor Devices
Devices with New Functionalities based on Material-Device Interactions and Reliability
Device-Related Electromagnetic Effects, Propagationand Scattering
Microwave/mm-Wave/THz Devices
Flexible, Printed Electronics
Carbon-based Electronics
Thermoelectric and Ferroelectric Devices


Photonic Devices


Advanced Optical Emitters and Photodetectors, from Extreme UV to THz
Single-Photon Quantum Devices
Nonlinear and Ultrafast Photonics
Nanophotonics and Photonic Integration
Optical Imaging and Sensing Techniques
Opto-Mechanical Nanodevices
Optical Communication Components


Magnetic Devices


Biomagnetic Devices
Nanomagnetic and Quantum Devices
Spin Electronics for Next Generation of Logic and Memories


Cross-Cutting


2D Material Devices and Circuits
Devices based on Paper Electronics
Bioelectronic Devices
Photovoltaic and Energy Harvesting Devices
Metamaterial and Plasmonic-Based Devices
Sensor Device Technologies

TheElectronics, Photonics and Magnetic Devices (EPMD) Programsupports innovative research on novel devices based on the principles of electronics, optics and photonics, optoelectronics, magnetics, opto- and electromechanics, electromagnetics, and related physical phenomena. EPMD’s goal is to advance the frontiers of micro-, nano- and quantum-based devices operating within the electromagnetic spectrum and contributing to a broad range of application domains including information and communications, imaging and sensing, healthcare, Internet of Things, energy, infrastructure, and manufacturing. The program encourages research based on emerging technologies for miniaturization, integration, and energy efficiency as well as novel material-based devices with new functionalities, improved efficiency, flexibility, tunability, wearability, and enhanced reliability.


Areas managed by Program Directors (please contact Program Directors listed in the EPMD staff directory for areas of interest):


Electronic Devices

• Nanoelectronics


• Wide/Extreme- and Narrow-Bandgap, Semiconductor Devices


• Devices with New Functionalities based on Material-Device Interactions and Reliability


• Device-Related Electromagnetic Effects, Propagationand Scattering


• Microwave/mm-Wave/THz Devices


• Flexible, Printed Electronics


• Carbon-based Electronics


• Thermoelectric and Ferroelectric Devices

Photonic Devices

• Advanced Optical Emitters and Photodetectors, from Extreme UV to THz


• Single-Photon Quantum Devices


• Nonlinear and Ultrafast Photonics


• Nanophotonics and Photonic Integration


• Optical Imaging and Sensing Techniques


• Opto-Mechanical Nanodevices


• Optical Communication Components

Magnetic Devices

• Biomagnetic Devices


• Nanomagnetic and Quantum Devices


• Spin Electronics for Next Generation of Logic and Memories

Cross-Cutting

• 2D Material Devices and Circuits


• Devices based on Paper Electronics


• Bioelectronic Devices


• Photovoltaic and Energy Harvesting Devices


• Metamaterial and Plasmonic-Based Devices


• Sensor Device Technologies