arXiv Open Access 2025

Ultrafast electrical control of dipolariton-based optical circuits with a few femto-joul per bit power consumption

Dror Liran Ronen Rapaport Kirk Baldwin Loren Pfeiffer Hui Deng

Lihat Sumber

Abstrak

The next generation of photonic circuits will require programmable, ultrafast, and energy-efficient components on a scalable platform for quantum and neuromorphic computing. Here, we present ultrafast electrical control of highly nonlinear light-matter hybrid quasi-particles, called waveguide exciton-dipolaritons, with extremely low power consumption. Our device performs as an optical transistor with a GHz-rate electrical modulation at a record-low total energy consumption $\sim$3 fJ/bit and a compact active area of down to 25 $μ$m$^2$. This work establishes waveguide-dipolariton platforms for scalable, electrically reconfigurable, ultra-low power photonic circuits for both classical and quantum computing and communication.

Topik & Kata Kunci

physics.optics cond-mat.mes-hall physics.app-ph

Penulis (5)

Dror Liran

Ronen Rapaport

Kirk Baldwin

Loren Pfeiffer

Hui Deng

Format Sitasi

APA MLA BibTeX

Liran, D., Rapaport, R., Baldwin, K., Pfeiffer, L., Deng, H. (2025). Ultrafast electrical control of dipolariton-based optical circuits with a few femto-joul per bit power consumption. https://arxiv.org/abs/2502.00878

Akses Cepat

Lihat di Sumber

Informasi Jurnal

Tahun Terbit: 2025
Bahasa: en
Sumber Database: arXiv
Akses: Open Access ✓