Search Results - "Toupin, P."

Low loss microstructured chalcogenide fibers for large non linear effects at 1995 nm by Troles, J, Coulombier, Q, Canat, G, Duhant, M, Renard, W, Toupin, P, Calvez, L, Renversez, G, Smektala, F, El Amraoui, M, Adam, J L, Chartier, T, Mechin, D, Brilland, L

“…Microstructured optical fibers (MOFs) are traditionally prepared using the stack and draw technique. In order to avoid the interfaces problems observed in…”
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Mid-infrared supercontinuum generation in As2S3-silica "nano-spike" step-index waveguide by Granzow, N, Schmidt, M A, Chang, W, Wang, L, Coulombier, Q, Troles, J, Toupin, P, Hartl, I, Lee, K F, Fermann, M E, Wondraczek, L, Russell, P St J

“…Efficient generation of a broad-band mid-infrared supercontinuum spectrum is reported in an arsenic trisulphide waveguide embedded in silica. A chalcogenide…”
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Catch and Release Photosensitizers: Combining Dual-Action Ruthenium Complexes with Protease Inactivation for Targeting Invasive Cancers by Arora, Karan, Herroon, Mackenzie, Al-Afyouni, Malik H, Toupin, Nicholas P, Rohrabaugh, Thomas N, Loftus, Lauren M, Podgorski, Izabela, Turro, Claudia, Kodanko, Jeremy J

“…Dual action agents containing a cysteine protease inhibitor and Ru-based photosensitizer for photodynamic therapy (PDT) were designed, synthesized, and…”
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Dual-Action Ru(II) Complexes with Bulky π‑Expansive Ligands: Phototoxicity without DNA Intercalation by Toupin, Nicholas P, Nadella, Sandeep, Steinke, Sean J, Turro, Claudia, Kodanko, Jeremy J

“…We report the synthesis and photochemical and biological characterization of Ru­(II) complexes containing π-expansive ligands derived from…”
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Unlocking the Potential of Ru(II) Dual‐action Compounds with the Power of the Heavy‐atom Effect by Toupin, Nicholas P., Steinke, Sean J., Herroon, Mackenzie K, Podgorski, Izabela, Turro, Claudia, Kodanko, Jeremy J.

“…ABSTRACT We report the synthesis, photochemical and biological characterization of two new Ru(II) photoactivated complexes based on [Ru(tpy)(Me2bpy)(L)]2+ (tpy…”
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BODIPY-Caged Photoactivated Inhibitors of Cathepsin B Flip the Light Switch on Cancer Cell Apoptosis by Toupin, Nicholas P, Arora, Karan, Shrestha, Pradeep, Peterson, Julie A, Fischer, Logan J, Rajagurubandara, Erandi, Podgorski, Izabela, Winter, Arthur H, Kodanko, Jeremy J

“…Acquired resistance to apoptotic agents is a long-standing challenge in cancer treatment. Cathepsin B (CTSB) is an enzyme which, among many essential…”
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Small core Ge-As-Se microstructured optical fiber with single-mode propagation and low optical losses by Toupin, Perrine, Brilland, Laurent, Trolès, Johann, Adam, Jean-Luc

“…Effects of multiple drawing operations on As sub(38)Se sub(62) and Ge sub(10)As sub(22)Se sub(68) chalcogenide microstructured optical fibers (MOF) are…”
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Toward More Coherent Sources Using a Microstructured Chalcogenide Brillouin Fiber Laser by Tow, K. H., Leguillon, Y., Fresnel, S., Besnard, P., Brilland, L., Mechin, D., Toupin, P., Troles, J.

“…Up to 16-dB frequency noise reduction and a linewidth 8 times narrower than that of the pump source is reported for the Stokes component in a compact Brillouin…”
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Mid-infrared supercontinuum generation in As_2S_3-silica “nano-spike” step-index waveguide by Granzow, N., Schmidt, M. A., Chang, W., Wang, L., Coulombier, Q., Troles, J., Toupin, P., Hartl, I., Lee, K. F., Fermann, M. E., Wondraczek, L., Russell, P. St.J.

“…Efficient generation of a broad-band mid-infrared supercontinuum spectrum is reported in an arsenic trisulphide waveguide embedded in silica. A chalcogenide…”
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Molded Glass-Ceramics for Infrared Applications by Rozé, Mathieu, Calvez, Laurent, Hubert, Mathieu, Toupin, Perrine, Bureau, Bruno, Boussard-Plédel, Catherine, Zhang, Xiang-Hua

“…In this paper, the feasibility to make molded glass–ceramics transparent in the second and third atmospheric window has been investigated. The thermodynamical…”
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Low loss microstructured chalcogenide fibers for large non linear effects at 1995 nm by Troles, J., Coulombier, Q, Canat, G., Duhant, M., Renard, W., Toupin, P., Calvez, L., Renversez, G., Smektala, F., El Amraoui, M., Adam, J., Chartier, T., Mechin, D., Brilland, L.

“…Microstructured optical fibers (MOFs) are traditionally prepared using the stack and draw technique. In order to avoid the interfaces problems observed in…”
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6 mW and 30 mW laser threshold for respectively 1st and 2nd Brillouin Stokes order in a Ge10As24Se68 chalcogenide fiber by Tow, K. Hey, Leguillon, Y., Besnard, P., Brilland, L., Mechin, D., Tregoat, D., Troles, J., Toupin, P.

“…A compact second-order Stokes Brillouin fiber laser made of microstructured chalcogenide glass is reported for the first time. This laser has very low optical…”
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Efficient four-wave mixing in a ultra-highly nonlinear suspended-core chalcogenide fiber by Le, S. D., Nguyen, D. M., Thual, M., Bramerie, L., e Silva, M. Costa, Lengle, K., Gay, M., Chartier, T., Brilland, L., Mechin, D., Toupin, P., Troles, J.

“…We report a chalcogenide suspended-core fiber with a record Kerr-nonlinearity of 46 000 W −1 km −1 and attenuation of 0.9 dB/m. Four-wave-mixing efficiencies…”
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All-optical wavelength conversion of a 56 Gb/s DQPSK signal and all-optical demultiplexing of a 170 Gb/s OOK signal in chalcogenide photonic crystal fibers by Le, S. D., Gay, M., Bramerie, L., Costa e Silva, M., Lengle, K., Pareige, C., Chartier, T., Thual, M., Simon, J.-C, Brilland, L., Mechin, D., Toupin, P., Troles, J.

“…We report on four-wave-mixing based all-optical wavelength conversion of a 56 Gb/s DQPSK signal and all-optical demultiplexing of a 170 Gb/s OOK signal in…”
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Chalcogenide microstructured fibers for sensors and nonlinear applications by Johann, T., Laurent, B., Toupin, P.

“…The recent optical improvements in the realization of chalcogenide microstructured fibers permit investigations in numerous fields of application such as,…”
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Chalcogenide glass fibers for photonic devices by Adam, J. L., Brilland, L., Toupin, P., Nazabal, V., Troles, J.

“…Chalcogenide glasses are non-silica materials whose transparency extends well beyond 3 μm in the infrared. This broad infrared transparency is due to the low…”
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Mid infrared supercontinuum generation in nanotapered chalcogenide-silica step-index waveguides by Granzow, N., Schmidt, M. A., Chang, W., Wang, L., Coulombier, Q., Troles, J., Toupin, P., Hartl, I., Lee, K. F., Fermann, M. E., Wondraczek, L., Russell, P. St.J

“…Chalcogenide glasses have nonlinear refractive indices ~200 times greater than fused silica, and offer windows of transparency extending far into the mid-IR…”
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42.7 Gbit/s RZ-33% wavelength conversion in a chalcogenide microstructured fiber by Le, S. D., Nguyen, D. M., Thual, M., Bramerie, L., e Silva, M. Costa, Lengle, K., Gay, M., Chartier, T., Simon, J.-C., Brilland, L., Mechin, D., Toupin, P., Troles, J.

“…We demonstrated error-free four-wave-mixing-based wavelength conversion of a 42.7-Gbit/s RZ-33% signal in a 1-m long GeAsSe chalcogenide microstructured fiber…”
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Chalcogenide suspended-core fibers: Manufacturing and non-linear properties at 1. 55 µm by Troles, J., Brilland, L., Toupin, P., Coulombier, Q., Le, S. D., Nguyen, D. M., Thual, M., Chartier, T., Renversez, G., Mechin, D., Adam, J. L.

“…Chalcogenide glasses are known for their high non-linear optical properties (100 - 1000 times as high as the non linearity of silica glass). To enhance the…”
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