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Dyachenko, P. N., Molesky, S., Petrov, A. Y., Stoermer, M., Krekeler, T., Lang, S., Ritter, M., Jacob, Z., & Eich, M. (avril 2016). Radiative engineering with refractory epsilon-near-zero metamaterials [Communication écrite]. Conference on Metamaterials X, Brussels, Belgium. Lien externe
Guo, Y., Molesky, S., Hu, H., Cortes, C. L., & Jacob, Z. (2014). Thermal excitation of plasmons for near-field thermophotovoltaics. Applied Physics Letters, 105(7), 073903 (5 pages). Lien externe
Guo, Y., Cortes, C. L., Molesky, S., & Jacob, Z. (2012). Broadband super-Planckian thermal emission from hyperbolic metamaterials. Applied Physics Letters, 101(13), 131106 (5 pages). Lien externe
Molesky, S., & Jacob, Z. (2019). Definition of polaritonic fluctuations in natural hyperbolic media. Physical Review A, 99(3), 033833 (13 pages). Lien externe
Molesky, S., & Jacob, Z. (2015). Ideal near-field thermophotovoltaic cells. Physical Review B, 91(20), 205435 (7 pages). Lien externe
Molesky, S., Dewalt, C. J., & Jacob, Z. (2013). High temperature epsilon-near-zero and epsilon-near-pole metamaterial emitters for thermophotovoltaics. Optics Express, 21(1), A96-A110. Lien externe
Molesky, S., & Jacob, Z. (juin 2013). High temperature epsilon-near-zero and epsilon-near-pole metamaterial emitters for thermophotovoltaics [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO), San Jose, CA. Lien externe
Molesky, S., & Jacob, Z. (mai 2012). Metamaterial thermal antenna using the wolf effect [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO), San Jose, CA. Lien externe
Pendharker, S., Hu, H., Molesky, S., Starko-Bowes, R., Poursoti, Z., Pramanik, S., Nazemifard, N., Fedosejevs, R., Thundat, T., & Jacob, Z. (2017). Thermal graphene metamaterials and epsilon-near-zero high temperature plasmonics. Journal of Optics, 19(5), 055101 (10 pages). Lien externe
Starko-Bowes, R., Wang, X., Dai, J., Newman, W., Molesky, S., Qi, L., Satija, A., Tsui, Y., Gupta, M., Fedosejevs, R., Pramanik, S., Xuan, Y., & Jacob, Z. (mai 2019). Dual-band quasi-coherent radiative thermal source [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO), San Jose, Calif.. Lien externe
Starko-Bowes, R., Dai, J., Newman, W., Molesky, S., Qi, L., Satija, A., Tsui, Y., Gupta, M., Fedosejevs, R., Pramanik, S., Xuan, Y., & Jacob, Z. (2018). Dual-band quasi-coherent radiative thermal source. Journal of Quantitative Spectroscopy & Radiative Transfer, 216, 99-104. Lien externe
