57、g, H. et al. Cyano-substituted oligo(p-phenylene vinylene) single crystals: A promising laser material. Adv. Func. Mater. 21, 37703777 (2011).45. Tsiminis, G. et al. Nanoimprinted organic semiconductor laser pumped by a light-emitting diode. Adv. Mater. 25, 28262830 (2013).46. Anikeeva, P. O., Halpe 。

58、rt, J. E., Bawendi, M. G. & Bulovic, V. Quantum dot light-emitting devices with electroluminescence tunable over the entire visible spectrum. Nano Lett. 9, 25322536 (2009).47. Dang, C. et al. Red, green and blue lasing enabled by single-exciton gain in colloidal quantum dot films. Nature Nanotech. 7 。

59、, 335339 (2012).48. Lebby, M. S. et al. Use of VCSEL arrays for parallel optical interconnects. Proc. SPIE Fabr. Testing, Reliab. Semicond. Las. 2683, 8191 (1996).49. Yang, G. M., MacDougal, M. H. & Dapkus, P. D. Ultralow threshold current vertical-cavity surface-emitting lasers obtained with select 。

60、ive oxidation. Electron. Lett. 31, 886888 (1995).50. Langner, M., Sudzius, M., Frob, H., Lyssenko, V. G. & Leo, K. Selective excitation of laser modes in an organic photonic dot microcavity. Appl. Phys. Lett. 95, 091109 (2009).51. Gather, M. C. & Yun, S. H. Lasing from Escherichia coli bacteria gene 。

61、tically programmed to express green fluorescent protein. Opt. Lett. 36, 32993301 (2011).52. Polman, A., Min, B., Kalkman, J., Kippenberg, T. J. & Vahala, K. J. Ultralowthreshold erbium-implanted toroidal microlaser on silicon. Appl. Phys. Lett. 84, 10371039 (2004).53. Fujita, M., Ushigome, R. & Baba 。

62、, T. Continuous wave lasing in GaInAsP microdisk injection laser with threshold current of 40 A. Electron. Lett. 36, 790791 (2000). 54. Zhang, Z. et al. Visible submicron microdisk lasers. Appl. Phys. Lett. 90, 111119 (2007).55. Van Campenhout, J. et al. Low-footprint optical interconnect on an SOI。

63、chip through heterogeneous integration of InP-based microdisk lasers and microdetectors. IEEE Photon. Technol. Lett. 21, 522524 (2009).56. Spillane, S. M., Kippenberg, T. J. & Vahala, K. J. Ultralow-threshold Raman laser using a spherical dielectric microcavity. Nature 415, 621623 (2002).57. Park, H 。

64、.-G. et al. Electrically driven single-cell photonic crystal laser. Science 305, 14441447 (2004).58. Tandaechanurat, A. et al. Lasing oscillation in a three-dimensional photonic crystal nanocavity with a complete bandgap. Nature Photon. 5, 9194 (2011).59. Takeda, K., Sato, T., Shinya, A. & Nozaki, K 。

65、. Few-fJ/bit data transmissions using directly modulated lambda-scale embedded active region photoniccrystal lasers. Nature Photon. 7, 569575 (2013).60. Karnutsch, C. et al. Improved organic semiconductor lasers based on a mixed-order distributed feedback resonator design. Appl. Phys. Lett. 90, 131104 (2007).61. Kuehne, A. J. C. et al. Sub-micrometer patterning of amo 。

稿源：(未知)

【傻大方】网址：/a/2021/0801/0023373863.html

标题：激光器|小激光器的进展( 九 )