L-Band Milliwatt Room-Temperature Solid-State Maser
Sophia Long, Max Attwood, Justin Chan, Priyanka Choubey, Hamdi Torun, Juna Sathian
TL;DR
This paper demonstrates room-temperature organic masers emitting milliwatt-level microwaves, with high coherence and strong coupling, advancing applications in radar, secure communication, and quantum technologies.
Contribution
It systematically compares organic gain media under identical conditions, identifying optimal doping levels and achieving the first milliwatt organic maser emission.
Findings
Achieved 2.34 mW continuous wave output at room temperature.
Spectral coherence times up to 465 ns and coherence lengths of 150 m.
Confirmed strong coupling with high cooperativity values.
Abstract
Molecular room temperature masers have emerged as promising sources of coherent microwaves, but systematic comparisons of organic gain media under uniform conditions remain limited. This paper presents a characterization of two systems, pentacene doped para terphenyl (Pc:PTP, 1.45 GHz) and 6,13 diazapentacene doped para terphenyl (DAP:PTP, 1.478 GHz), examined at four concentrations, including a new 0.05 percent DAP:PTP sample. By evaluating L band masing media under identical conditions, optimal doping levels and gain materials for high power operation are identified. The optimized system produced room temperature continuous wave masing with a peak output of 2.34 mW (+3.69 dBm), marking the first milliwatt level emission from an organic maser. Spectral coherence times of 465 ns and coherence lengths up to 150 m were obtained. Coupling to a high Q cavity mode enables collective spin…
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