Optical Amplification by Stimulated Cooling of Polaron-Polaritons

Two dimensional semiconductors provide an ideal platform for exploration of linear exciton and polariton physics, primarily due to large exciton binding and strong light-matter coupling. These features however, generically imply reduced exciton-exciton interactions, hindering the realisation of active optical devices such as lasers or parametric oscillators. Here, we show that electrical injection of itinerant electrons into monolayer molybdenum diselenide allows us to overcome this limitation and to demonstrate polariton amplification. To demonstrate optical gain by stimulated cooling of polaritons by electrons, we carry out pump-probe measurements and observe transmission gain of the probe field exceeding 2. Our findings demonstrate that itinerant electron exciton interactions provide an invaluable tool for electronic manipulation of optical properties and pave the way for realisation of nonequilibrium polariton condensates.