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Antenna-coupled integrated millimeterwave modulators and resonant electro-optic frequency combsстатья
- Авторы: Gaier A., Mamian K., Rajabali S., Lampert Y., Liu J., Magalhaes L., Shams-Ansari A., Loncar M., Benea-Chelmus I.C.
- Журнал: ArXiv e-prints
- Год издания: 2025
- DOI: 10.48550/ARXIV.2505.04585
- Аннотация: The rapid growth of global data traffic is accelerating the need for ultra-broadband communication technologies, particularly in inter-data center links and emerging 6G wireless systems. Applications such as optical computing and quantum information processing further demand fast, scalable ways to interface optical and electronic signals. Integrated electro-optic modulators offer a compact and efficient solution, but extending their operation into the millimeterwave (mmWave) and terahertz regimes is difficult. Key challenges include high transmission line losses and bulky electrical packaging. Here, we demonstrate a wireless and wideband electro-optic modulation architecture that directly interfaces wireless mmWave signals with optical ones, eliminating the need for impedance-matched mmWave probes and cables. By integrating an on-chip antenna directly with a co-designed traveling-wave transmission line on thin-film lithium niobate, we achieve spectrally flat phase modulation across the WR9.0 (82-125 GHz) and WR2.8 (240-380 GHz) bands. The wideband nature of our modulator enables the device to function as a high-speed mmWave detector. By modulating the mmWave carrier at frequencies up to 6 GHz, we demonstrate the device's flat and wide detection bandwidth-critical for 6G communication and high-speed mmWave sensing. Beyond traveling-wave detection, our wireless platform enables resonant electro-optic frequency comb generation with mode spacing of 123.2 GHz and 307.9 GHz. Extracted single-photon electro-optic coupling rates of kHz and 25.99 kHz, at 123.2 and 307.9 GHz, respectively, demonstrate favorable scaling with mmWave frequency. These results establish a new class of broadband, wireless electro-optic devices for high-speed modulation, detection, and frequency comb generation, with promising applications in communications, sensing, and quantum technologies.
- Добавил в систему: Мамян Карен Арменович