Nature Communications (Dec 2023)

Photon-phonon collaboratively pumped laser

  • Yu Fu,
  • Fei Liang,
  • Cheng He,
  • Haohai Yu,
  • Huaijin Zhang,
  • Yan-Feng Chen

DOI
https://doi.org/10.1038/s41467-023-43959-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

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Abstract In 1917, Einstein considered stimulated photon emission of electron radiation, offering the theoretical foundation for laser, technically achieved in 1960. However, thermal phonons along with heat creation of non-radiative transition, are ineffective, even playing a detrimental role in lasing efficiency. Here, we realize a photon-phonon collaboratively pumped laser enhanced by heat in a counterintuitive way. We observe a laser transition from phonon-free 1064 nm lasing to phonon-pumped 1176 nm lasing in Nd:YVO4 crystal, associated with the phonon-pumped population inversion under high temperatures. Moreover, an additional temperature threshold (Tth) appears besides the photon-pump power threshold (Pth), and a two-dimensional lasing phase diagram is verified with a general relation ruled by Pth = C/Tth (constant C upon loss for a given crystal), similar to Curie’s Law. Our strategy will promote the study of laser physics via dimension extension, searching for highly efficient and low-threshold laser devices via this temperature degree of freedom.