The Experts below are selected from a list of 5742 Experts worldwide ranked by ideXlab platform
Martin Fally - One of the best experts on this subject based on the ideXlab platform.
-
three Port Beam splitter for slow neutrons using holographic nanoparticle polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for slow neutrons—splitting the incident neutron intensity equally into the ±1st and the 0th diffraction orders—has been realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
-
Three-Port Beam splitter for slow neutrons using holographic nanoparticle-polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for cold neutrons - splitting the incident neutron intensity equally into the plus-minus first and zeroth diffraction orders - was realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
Jürgen Klepp - One of the best experts on this subject based on the ideXlab platform.
-
three Port Beam splitter for slow neutrons using holographic nanoparticle polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for slow neutrons—splitting the incident neutron intensity equally into the ±1st and the 0th diffraction orders—has been realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
-
Three-Port Beam splitter for slow neutrons using holographic nanoparticle-polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for cold neutrons - splitting the incident neutron intensity equally into the plus-minus first and zeroth diffraction orders - was realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
Yasuo Tomita - One of the best experts on this subject based on the ideXlab platform.
-
three Port Beam splitter for slow neutrons using holographic nanoparticle polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for slow neutrons—splitting the incident neutron intensity equally into the ±1st and the 0th diffraction orders—has been realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
-
Three-Port Beam splitter for slow neutrons using holographic nanoparticle-polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for cold neutrons - splitting the incident neutron intensity equally into the plus-minus first and zeroth diffraction orders - was realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
Joachim Kohlbrecher - One of the best experts on this subject based on the ideXlab platform.
-
three Port Beam splitter for slow neutrons using holographic nanoparticle polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for slow neutrons—splitting the incident neutron intensity equally into the ±1st and the 0th diffraction orders—has been realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
-
Three-Port Beam splitter for slow neutrons using holographic nanoparticle-polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for cold neutrons - splitting the incident neutron intensity equally into the plus-minus first and zeroth diffraction orders - was realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
Christian Pruner - One of the best experts on this subject based on the ideXlab platform.
-
three Port Beam splitter for slow neutrons using holographic nanoparticle polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for slow neutrons—splitting the incident neutron intensity equally into the ±1st and the 0th diffraction orders—has been realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
-
Three-Port Beam splitter for slow neutrons using holographic nanoparticle-polymer composite diffraction gratings
Applied Physics Letters, 2012Co-Authors: Jürgen Klepp, Yasuo Tomita, Christian Pruner, Joachim Kohlbrecher, Martin FallyAbstract:Diffraction of slow neutrons by nanoparticle-polymer composite gratings has been observed. By carefully choosing grating parameters such as grating thickness and spacing, a three-Port Beam splitter operation for cold neutrons - splitting the incident neutron intensity equally into the plus-minus first and zeroth diffraction orders - was realized. As a possible application, a Zernike three-path interferometer is briefly discussed.
