<p>Modern high-definition display and augmented reality technologies require the development of ultracompact micro- and nano-pixels with colors covering the full gamut and high brightness. In this regard, lasing nano-pixels emitting light in the spectral range 400–700 nm are highly demanded. Despite progress in red, green, and ultraviolet nanolasers, the demonstrated blue-range (400–500 nm) single-particle-based lasers are still not subwavelength yet. Here we fabricate CsPbCl<sub>3</sub> cubic-shaped single-crystal nanolasers on a silver substrate by wet chemistry synthesis, producing their size range around 100–500 nm, where the nanoparticle with sizes 0.145 <i>μ</i>m × 0.195 <i>μ</i>m × 0.19 <i>μ</i>m and volume 0.005 <i>μ</i>m<sup>3</sup> (i.e. ~ <i>λ</i><sup>3</sup>/13) is the smallest nanolaser among the lasers operating in the blue range reported so far, with emission wavelength around <i>λ</i> ≈ 415 nm. Experimental results at a temperature of 80 K and theoretical modeling show that the CsPbCl<sub>3</sub> nanolaser is a polaritonic laser where exciton-polaritons are strongly coupled with Mie resonances enhanced by the metallic substrate. As a result, the combination of the strong excitonic response of CsPbCl<sub>3</sub> materials, its high crystalline quality, and optimized optical resonant properties resulting in a lasing regime are the key factors making the proposed nanolaser design superior among previously reported ones in the blue spectral range.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Deeply subwavelength blue-range nanolaser

  • Daria Khmelevskaia,
  • Nikolay Solodovchenko,
  • Elizaveta Sapozhnikova,
  • Igor Chestnov,
  • Alexey Dmitriev,
  • Vanik Shahnazaryan,
  • Denis Baranov,
  • Sergey Makarov

摘要

Modern high-definition display and augmented reality technologies require the development of ultracompact micro- and nano-pixels with colors covering the full gamut and high brightness. In this regard, lasing nano-pixels emitting light in the spectral range 400–700 nm are highly demanded. Despite progress in red, green, and ultraviolet nanolasers, the demonstrated blue-range (400–500 nm) single-particle-based lasers are still not subwavelength yet. Here we fabricate CsPbCl3 cubic-shaped single-crystal nanolasers on a silver substrate by wet chemistry synthesis, producing their size range around 100–500 nm, where the nanoparticle with sizes 0.145 μm × 0.195 μm × 0.19 μm and volume 0.005 μm3 (i.e. ~ λ3/13) is the smallest nanolaser among the lasers operating in the blue range reported so far, with emission wavelength around λ ≈ 415 nm. Experimental results at a temperature of 80 K and theoretical modeling show that the CsPbCl3 nanolaser is a polaritonic laser where exciton-polaritons are strongly coupled with Mie resonances enhanced by the metallic substrate. As a result, the combination of the strong excitonic response of CsPbCl3 materials, its high crystalline quality, and optimized optical resonant properties resulting in a lasing regime are the key factors making the proposed nanolaser design superior among previously reported ones in the blue spectral range.