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Fundamental constraints imposing power-frequency trade-offs in conventional electronics have stimulated research on alternative technologies for millimeter-wave and sub-millimeter-wave applications. In this work, we use the picosecond threshold firing of nanoplasma switches to demonstrate on-chip millimeter-wave modulators that rely on a single metal layer. We show amplitude shift keying (ASK) modulation with self-synthesized carrier frequencies up to 66 GHz (limited by the bandwidth of our experimental setup), with output power of 30 dBm. These all-metal nanoplasma modulators are low cost, and generally compatible with different platforms, from CMOS and III-V compounds to flexible substrates. Our work paves the way towards future terahertz communication circuits with large output powers, which otherwise are not practical using high-power amplifiers at frequencies over 100 GHz. In a more general context, the proposed all-metal circuits can potentially synthesize arbitrarily-shaped ultra-wide-band (UWB) signals with applications in advanced wireless communications, radars, and imaging systems.
Dirk Grundler, Thomas Yu, Ping Che, Qi Wang, Wei Zhang, Benedetta Flebus
Romain Christophe Rémy Fleury, Amir Jafargholi, Jalaledin Tayebpour