Minna Zhang, Hao Wu, Xuri Yao, Jiyang Ma, Mark Oxborrow, Qing Zhao
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Room-temperature self-cavity lasing from organic color centers
Color centers, which are point defects in crystals, play a crucial role in
altering the optical properties of their host materials, enabling widespread
applications in the field of quantum information processing. While the majority
of the state-of-the-art color centers are inorganic, they come with limitations
such as the challenging material preparations and insufficient amount of
available centers. In contrast, organic color centers have recently gained
attention due to their ease of preparations and tailorable functionalities.
Here, pentacene-doped p-terphenyl (Pc:Ptp), an organic color-center system
normally used for microwave quantum electronics, is demonstrated for the first
time its ability of self-cavity laser emission at room temperature. The laser
emission is characterized by strong polarization and high anisotropy,
attributed to the unique packing of the color-center molecules within the
crystal. The optical coherence is found to be a figure of merit to distinguish
the processes of the amplified spontaneous emission (ASE) and lasing in Pc:Ptp.
This work highlights the potential of Pc:Ptp as a compact and efficient
platform for light-matter interactions , offering significant promise for
enhancing the performance of solid-state quantum devices based on this organic
color-center system.
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