The Experts below are selected from a list of 29403 Experts worldwide ranked by ideXlab platform
A A Nikitin - One of the best experts on this subject based on the ideXlab platform.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
Applied Physics Letters, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E Lahderanta, B A Kalinikos, B HillebrandsAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
arXiv: Mesoscale and Nanoscale Physics, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E LahderantaAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of the waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
B Hillebrands - One of the best experts on this subject based on the ideXlab platform.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
Applied Physics Letters, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E Lahderanta, B A Kalinikos, B HillebrandsAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
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spin wave ferromagnetic film combiner as a not Logic Gate
Journal of Nanoelectronics and Optoelectronics, 2008Co-Authors: T Schneider, A A Serga, B Hillebrands, Mikhail KostylevAbstract:An on-chip spin-wave combiner was fabricated by structuring a ferrimagnetic yttrium iron garnet film. Interference of magnetostatic spin-wave pulses in the combiner was studied using time and space resolve Brillouin light scattering spectroscopy. This investigation demonstrates functionality of the combiner as a NOT Logic Gate. We believe that it is an important step towards implementation of all-spin-wave on-chip Logical Gates.
E Lahderanta - One of the best experts on this subject based on the ideXlab platform.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
Applied Physics Letters, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E Lahderanta, B A Kalinikos, B HillebrandsAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
arXiv: Mesoscale and Nanoscale Physics, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E LahderantaAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of the waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
A B Ustinov - One of the best experts on this subject based on the ideXlab platform.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
Applied Physics Letters, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E Lahderanta, B A Kalinikos, B HillebrandsAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
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a spin wave Logic Gate based on a width modulated dynamic magnonic crystal
arXiv: Mesoscale and Nanoscale Physics, 2015Co-Authors: A A Nikitin, A B Ustinov, A A Semenov, A V Chumak, A A Serga, V I Vasyuchka, E LahderantaAbstract:An electric current controlled spin-wave Logic Gate based on a width-modulated dynamic magnonic crystal is realized. The device utilizes a spin-wave waveguide fabricated from a single-crystal Yttrium Iron Garnet film and two conducting wires attached to the film surface. Application of electric currents to the wires provides a means for dynamic control of the effective geometry of the waveguide and results in a suppression of the magnonic band gap. The performance of the magnonic crystal as an AND Logic Gate is demonstrated.
Yifan Lyu - One of the best experts on this subject based on the ideXlab platform.
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engineering a 3d dna Logic Gate nanomachine for bispecific recognition and computing on target cell surfaces
Journal of the American Chemical Society, 2018Co-Authors: Ruizi Peng, Xiaofang Zheng, Yifan Lyu, Xiaobing Zhang, Qiaoling Liu, Changjun You, Shuangyan Huan, Weihong TanAbstract:Among the vast number of recognition molecules, DNA aptamers generated from cell-SELEX exhibit unique properties for identifying cell membrane biomarkers, in particular protein receptors on cancer cells. To integrate all recognition and computing modules within a single structure, a three-dimensional (3D) DNA-based Logic Gate nanomachine was constructed to target overexpressed cancer cell biomarkers with bispecific recognition. Thus, when the Boolean operator “AND” returns a true value, it is followed by an “ON” signal when the specific cell type is presented. Compared with freely dispersed double-stranded DNA (dsDNA)-based molecular circuits, this 3D DNA nanostructure, termed DNA-Logic Gate triangular prism (TP), showed better identification performance, enabling, in turn, better molecular targeting and fabrication of recognition nanorobotics.
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Engineering a 3D DNA-Logic Gate Nanomachine for Bispecific Recognition and Computing on Target Cell Surfaces
2018Co-Authors: Ruizi Peng, Xiaofang Zheng, Yifan Lyu, Xiaobing Zhang, Qiaoling Liu, Changjun You, Shuangyan Huan, Weihong TanAbstract:Among the vast number of recognition molecules, DNA aptamers generated from cell-SELEX exhibit unique properties for identifying cell membrane biomarkers, in particular protein receptors on cancer cells. To integrate all recognition and computing modules within a single structure, a three-dimensional (3D) DNA-based Logic Gate nanomachine was constructed to target overexpressed cancer cell biomarkers with bispecific recognition. Thus, when the Boolean operator “AND” returns a true value, it is followed by an “ON” signal when the specific cell type is presented. Compared with freely dispersed double-stranded DNA (dsDNA)-based molecular circuits, this 3D DNA nanostructure, termed DNA-Logic Gate triangular prism (TP), showed better identification performance, enabling, in turn, better molecular targeting and fabrication of recognition nanorobotics