Energy Transport in Lossy Resonators by Optical Admittance Methods
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review
Researchers
Research units
Abstract
Improved modeling tools are needed for self-consistent simulation of photon and carrier transport in emerging photonic devices. Here we introduce the method of optical admittances to simplify the calculation of Green's functions and interference effects of energy transport in the recently introduced quantized fluctuational electrodynamics framework. Our approach enables a straightforward analytical method to calculate e.g. the local and nonlocal densities of states in photonic resonators. Furthermore, the resulting wave-optical treatment of emission enhancement and photon recycling can be coupled with drift-diffusion simulations using the so-called interference-exact radiative transfer equations to provide a full-device model of optical and electrical energy transport in arbitrary multilayer structures. We expect the presented framework to enable detailed new studies of emerging photonic devices based on e.g. thin-film technology.
Details
Original language | English |
---|---|
Title of host publication | 31st Annual Conference of the IEEE Photonics Society, IPC 2018 |
Publication status | Published - 6 Nov 2018 |
MoE publication type | A4 Article in a conference publication |
Event | IEEE Photonics Conference - Reston, United States Duration: 30 Sep 2018 → 4 Oct 2018 Conference number: 31 |
Conference
Conference | IEEE Photonics Conference |
---|---|
Abbreviated title | IPC |
Country | United States |
City | Reston |
Period | 30/09/2018 → 04/10/2018 |
Download statistics
ID: 30562599