Documents dont l'auteur est "Molesky, Sean"

Sean MoleskyDépartement de génie physiqueVoir sa fiche dans le Répertoire des Expertises de Polytechnique Montréal

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Amaolo, A., Chao, P., Maldonado, T. J., Molesky, S., & Rodríguez, A. W. (2024). Can photonic heterostructures provably outperform single-material geometries? Nanophotonics, 13(3), 283-288. Disponible

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Chao, P., Defo, R. K., Molesky, S., & Rodriguez, A. (mai 2023). Fundamental Limits to Enhancing the Local Density of States Through Nanostructuring [Communication écrite]. Fundamental Science 2023 (CLEO 2023), San Jose, CA, USA. Lien externe

Chao, P., Defo, R. K., Molesky, S., & Rodriguez, A. (2022). Maximum electromagnetic local density of states via material structuring. Nanophotonics, 12(3), 549-557. Lien externe

Chao, P., Strekha, B., Kuate Defo, R., Molesky, S., & Rodriguez, A. W. (2022). Physical limits in electromagnetism. Nature Reviews Physics, 4(8), 543-559. Lien externe

Chakravarthi, S., Chao, P., Pederson, C., Molesky, S., Ivanov, A., Hestroffer, K., Hatami, F., Rodriguez, A. W., & Fu, K.-M. C. (2020). Inverse-designed photon extractors for optically addressable defect qubits. Optica, 7(12), 1805-1811. Lien externe

Cortes, C. L., Newman, W., Molesky, S., & Jacob, Z. (2014). Correction: Quantum nanophotonics using hyperbolic metamaterials (vol 14, 063001, 2012). Journal of Optics, 16(12), 129501 (1 page). Lien externe

Cocker, T. L., Jelic, V., Hoffman, J. R., Gupta, M., Miller, R., Molesky, S., Burgess, J. A. J., De Los Reyes, G., Titova, L. V., Tsui, Y. Y., Freeman, M. R., & Hegmann, F. A. (février 2014). Imaging ultrafast dynamics on the nanoscale with a THz-STM [Communication écrite]. Conference on Ultrafast Phenomena and Nanophotonics XVIII, San Francisco, CA. Lien externe

Cocker, T. L., Jelic, V., Gupta, M., Molesky, S., Burgess, J. A. J., De Los Reyes, G., Titova, L. V., Tsui, Y. Y., Freeman, M. R., & Hegmann, F. A. (mai 2013). Imaging ultrafast nanoscale dynamics with a THz-pulse-coupled STM [Communication écrite]. Conference on Lasers and Electro-Optics Europe & International Quantum Electronics Conference (CLEO/Europe-IQEC), Munich, Germany. Lien externe

Cocker, T. L., Jelic, V., Gupta, M., Molesky, S., Burgess, J. A. J., De Los Reyes, G., Titova, L. V., Tsui, Y. Y., Freeman, M. R., & Hegmann, F. A. (2013). An ultrafast terahertz scanning tunnelling microscope. Nature Photonics, 7(8), 620-625. Lien externe

Cortes, C. L., Newman, W., Molesky, S., & Jacob, Z. (2012). Quantum nanophotonics using hyperbolic metamaterials. Journal of Optics, 14(6), 063001 (15 pages). Lien externe

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Dyachenko, P. N., Molesky, S., Yu Petrov, A., Störmer, M., Krekeler, T., Lang, S., Ritter, M., Jacob, Z., & Eich, M. (2016). Controlling thermal emission with refractory epsilon-near-zero metamaterials via topological transitions. Nature Communications, 7(1), 11809 (8 pages). Lien externe

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

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Forcade, G. P., Valdivia, C. E., Molesky, S., Lu, S., Rodriguez, A. W., Krich, J. J., St-Gelais, R., & Hinzer, K. (2022). Efficiency-optimized near-field thermophotovoltaics using InAs and InAsSbP. Applied Physics Letters, 121(19), 193903 (8 pages). Lien externe

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Giroux, M., Stephan, M., Brazeau, M., Molesky, S., Rodriguez, A. W., Krich, J. J., Hinzer, K., & St-Gelais, R. (2023). Measurement of Near-Field Radiative Heat Transfer at Deep Sub-Wavelength Distances using Nanomechanical Resonators. Nano Letters, 8 pages. 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

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Jin, W., Molesky, S., Lin, Z., & Rodriguez, A. W. (2019). Material scaling and frequency-selective enhancement of near-field radiative heat transfer for lossy metals in two dimensions via inverse design. Physical Review B, 99(4), 041403 (6 pages). Lien externe

Jin, W., Molesky, S., Lin, Z., Fu, K.-M. C., & Rodriguez, A. W. (2018). Inverse design of compact multimode cavity couplers. Optics Express, 26(20), 26713-26721. Lien externe

Jelic, V., Cocker, T. L., Nguyen, P. H., Rathje, C., Hornig, G. J., Hoffman, J. R., Sharum, H. M., Miller, R., Molesky, S., Gupta, M., Burgess, J. A. J., De los Reyes, G. B., Titova, L. V., Ropers, C., Tsui, Y. Y., Freeman, M. R., & Hegmann, F. A. (août 2015). Imaging ultrafast dynamics on the nanoscale with THz-STM [Communication écrite]. 40th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), Hong Kong, China. Lien externe

Jelic, V., Cocker, T. L., Hoffman, J. R., Gupta, M., Miller, R., Molesky, S., Burgess, J. A. J., De Los Reyes, G. B., Titova, L. V., Tsui, Y. Y., Freeman, M. R., & Hegmann, F. A. (février 2014). Ultrafast THz-pulse-induced tunneling dynamics in an STM [Communication écrite]. Conference on Ultrafast Phenomena and Nanophotonics XVIII, San Francisco, CA. Lien externe

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Lang, S., Sharma, G., Molesky, S., Kränzien, P. U., Jalas, T., Jacob, Z., Petrov, A. Y., & Eich, M. (2017). Dynamic measurement of near-field radiative heat transfer. Scientific Reports, 7(1), 13916 (8 pages). Lien externe

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Mohajan, J., Chao, P., Jin, W., Molesky, S., & Rodriguez, A. W. (2023). Fundamental limits on radiative χ⁽²⁾ second harmonic generation. Optics Express, 31(26), 44212-44223. Lien externe

Molesky, S., Chao, P., Mohajan, J., Reinhart, W., Chi, H., & Rodriguez, A. W. (2022). T-operator limits on optical communication: Metaoptics, computation, and input-output transformations. Physical Review Research, 4(1), 15 pages. Lien externe

Molesky, S., Venkataram, P. S., Jin, W., & Rodriguez, A. W. (2020). Fundamental limits to radiative heat transfer: Theory. Physical Review B, 101(3), 035408 (12 pages). Lien externe

Molesky, S., Chao, P., Jin, W., & Rodriguez, A. W. (2020). Global T operator bounds on electromagnetic scattering: Upper bounds on far-field cross sections. Physical Review Research, 2(3), 033172 (24 pages). Lien externe

Molesky, S., Chao, P., & Rodriguez, A. W. (2020). Hierarchical mean-field T operator bounds on electromagnetic scattering: Upper bounds on near-field radiative Purcell enhancement. Physical Review Research, 2(4), 043398 (12 pages). Lien externe

Molesky, S., Venkataram, P. S., Jin, W., Chao, P., & Rodriguez, A. W. (mai 2020). T-operator bounds on absorption, scattering and thermal emission for arbitrary objects [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO), Washington, D.C.. 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., Jin, W., Venkataram, P. S., & Rodriguez, A. W. (2019). T operator bounds on angle-integrated absorption and thermal radiation for arbitrary objects. Physical Review Letters, 123(25), 257401 (6 pages). Lien externe

Molesky, S., Lin, Z., Piggott, A. Y., Jin, W., Vuckovic, J., & Rodriguez, A. W. (2018). Inverse design in nanophotonics. Nature Photonics, 12(11), 659-670. 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

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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

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Strekha, B., Chao, P., Defo, R. K., Molesky, S., & Rodriguez, A. W. (2024). Suppressing electromagnetic local density of states via slow light in lossy quasi-one-dimensional gratings. Physical Review A, 109(4), 041501 (6 pages). Lien externe

Strekha, B., Molesky, S., Chao, P., Krueger, M., & Rodriguez, A. W. (2022). Trace expressions and associated limits for nonequilibrium Casimir torque. Physical Review A, 106(4), 042222 (19 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

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Venkataram, P. S., Molesky, S., Cuevas, J. C., & Rodriguez, A. W. (2020). Channel-based algebraic limits to conductive heat transfer. Physical Review B, 102(8), 085405 (10 pages). Lien externe

Venkataram, P. S., Molesky, S., Chao, P., & Rodriguez, A. W. (2020). Fundamental limits to attractive and repulsive Casimir-Polder forces. Physical Review A, 101(5), 052115 (10 pages). Lien externe

Venkataram, P. S., Molesky, S., Jin, W., & Rodriguez, A. W. (2020). Fundamental limits to radiative heat transfer: The limited role of nanostructuring in the near-field. Physical Review Letters, 124(1), 013904 (6 pages). Lien externe