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Albrecht, A. R., Seletskiy, D., Hains, C. P., Cederberg, J. G., Di Lieto, A., Tonelli, M., Balakrishnan, G., & Sheik-Bahae, M. (mai 2012). Intracavity laser cooling using a VECSEL [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO 2012), San Jose, California. Lien externe
Di Lieto, A., Sottile, A., Volpi, A., Zhang, Z., Seletskiy, D., & Tonelli, M. (2014). Influence of other rare earth ions on the optical refrigeration efficiency in Yb:YLF crystals. Optics Express, 22(23), 28572-28583. Lien externe
Melgaard, S. D., Seletskiy, D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (février 2013). Optical refrigeration progress: cooling below NIST cryogenic temperature of 123K [Communication écrite]. SPIE OPTO 2013, San Francisco, California (4 pages). Lien externe
Melgaard, S. D., Seletskiy, D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (2013). Optical refrigeration to 119K, below National Institute of Standards and Technology cryogenic temperature. Optics Letters, 38(9), 1588-1590. Lien externe
Melgaard, S. D., Seletskiy, D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (janvier 2012). High sensitivity spectroscopic and thermal characterization of cooling efficiency for optical refrigeration materials [Communication écrite]. SPIE OPTO 2012, San Francisco, California (4 pages). Lien externe
Melgaard, S., Seletskiy, D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (mai 2012). Optical refrigeration to NIST cryogenic temperature at 123K [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO 2012), San Jose, California. Lien externe
Melgaard, S. D., Seletskiy, D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (février 2011). Experimental evidence for laser cooling of Yb:YLF to 120 Kelvin [Communication écrite]. SPIE OPTO 2011, San Francisco, California (5 pages). Lien externe
Melgaard, S., Seletskiy, D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (mai 2012). High sensitivity optical refrigeration spectroscopy: local cooling of Yb:YLF crystal to 110 K [Communication écrite]. Laser Applications to Photonic Applications (CLEO 2011), Baltimore, Maryland. Lien externe
Seletskiy, D., Melgaard, S. D., Epstein, R. I., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (2013). Precise determination of minimum achievable temperature for solid-state optical refrigeration. Journal of Luminescence, 133, 5-9. Lien externe
Seletskiy, D., Melgaard, S. D., Epstein, R. I., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (2011). Local laser cooling of Yb:YLF to 110 K. Optics Express, 19(19), 18229-18236. Lien externe
Seletskiy, D., Melgaard, S. D., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (2010). Laser cooling of a semiconductor load to 165 K. Optics Express, 18(17), 18061-18066. Lien externe
Seletskiy, D., Melgaard, S., Sheik-Bahae, M., Bigotta, S., Di Lieto, A., & Tonelli, M. (février 2010). Laser cooling of a semiconductor load using a Yb:YLF optical refrigerator [Communication écrite]. SPIE OPTO 2010, San Francisco, California (5 pages). Lien externe
Seletskiy, D., Melgaard, S. D., Bigotta, S., Di Lieto, A., Tonelli, M., & Sheik-Bahae, M. (2010). Laser cooling of solids to cryogenic temperatures. Nature Photonics, 4(3), 161-164. Lien externe
Seletskiy, D., Melgaard, S. D., Sheik-Bahae, M., Bigotta, S., Di Lieto, A., Tonelli, M., & Epstein, R. I. (février 2010). Optical refrigeration breaks the Peltier barrier: cooling Yb:YLF to 155K [Communication écrite]. SPIE OPTO 2010, San Francisco, California (6 pages). Lien externe
