The Experts below are selected from a list of 31101 Experts worldwide ranked by ideXlab platform
Katalin Kamaras - One of the best experts on this subject based on the ideXlab platform.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
Applied Physics Letters, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up, half of the paraboloid mirror covers a solid angle of π corresponding to a numerical aperture of N.A. ≈ 0.85. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field, the polarizations can be maintained to within 80%–90%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy at low temperature.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
arXiv: Instrumentation and Detectors, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up half of the paraboloid mirror covers a solid angle of $\pi$ corresponding to a numerical aperture of N.A.\,$\approx 0.85$. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field the polarizations can be maintained to within 80-90\%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10\% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy (TERS) at low temperature.
N Chelwani - One of the best experts on this subject based on the ideXlab platform.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
Applied Physics Letters, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up, half of the paraboloid mirror covers a solid angle of π corresponding to a numerical aperture of N.A. ≈ 0.85. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field, the polarizations can be maintained to within 80%–90%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy at low temperature.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
arXiv: Instrumentation and Detectors, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up half of the paraboloid mirror covers a solid angle of $\pi$ corresponding to a numerical aperture of N.A.\,$\approx 0.85$. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field the polarizations can be maintained to within 80-90\%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10\% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy (TERS) at low temperature.
D Hoch - One of the best experts on this subject based on the ideXlab platform.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
Applied Physics Letters, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up, half of the paraboloid mirror covers a solid angle of π corresponding to a numerical aperture of N.A. ≈ 0.85. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field, the polarizations can be maintained to within 80%–90%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy at low temperature.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
arXiv: Instrumentation and Detectors, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up half of the paraboloid mirror covers a solid angle of $\pi$ corresponding to a numerical aperture of N.A.\,$\approx 0.85$. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field the polarizations can be maintained to within 80-90\%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10\% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy (TERS) at low temperature.
D Jost - One of the best experts on this subject based on the ideXlab platform.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
Applied Physics Letters, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up, half of the paraboloid mirror covers a solid angle of π corresponding to a numerical aperture of N.A. ≈ 0.85. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field, the polarizations can be maintained to within 80%–90%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy at low temperature.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
arXiv: Instrumentation and Detectors, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up half of the paraboloid mirror covers a solid angle of $\pi$ corresponding to a numerical aperture of N.A.\,$\approx 0.85$. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field the polarizations can be maintained to within 80-90\%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10\% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy (TERS) at low temperature.
Bea Botka - One of the best experts on this subject based on the ideXlab platform.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
Applied Physics Letters, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up, half of the paraboloid mirror covers a solid angle of π corresponding to a numerical aperture of N.A. ≈ 0.85. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field, the polarizations can be maintained to within 80%–90%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy at low temperature.
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off axis parabolic mirror optics for polarized raman Spectroscopy at low temperature
arXiv: Instrumentation and Detectors, 2017Co-Authors: N Chelwani, D Hoch, D Jost, Bea Botka, J R Scholz, R Richter, M Theodoridou, F Kretzschmar, T Bohm, Katalin KamarasAbstract:We report the development of a detection optics for the integration of Raman scattering and scanning probe microscopy at low temperature based on a parabolic mirror. In our set-up half of the paraboloid mirror covers a solid angle of $\pi$ corresponding to a numerical aperture of N.A.\,$\approx 0.85$. The optical system can be used for far- and Near-Field Spectroscopy. In the far Field the polarizations can be maintained to within 80-90\%. In combination with a scanning microscope (AFM/STM), tunneling or Near-Field experiments are possible with less than 10\% loss of aperture. Our set-up provides ideal conditions for the future development of tip-enhanced Raman Spectroscopy (TERS) at low temperature.
