Vortex rectenna powered by environmental fluctuations

J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh
Nature Publishing Group (NPG)
Published 2018

Publication Date:	2018-11-23
Publisher:	Nature Publishing Group (NPG)
Electronic ISSN:	2041-1723
Topics:	Biology Chemistry and Pharmacology Natural Sciences in General Physics
Published by:	http://www.nature.com/

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autor	J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh
beschreibung	Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations, Published online: 22 November 2018; doi:10.1038/s41467-018-07352-1 Devices that generate electricity from electric fluctuations are promising for wireless power transmission as well as energy harvesting from environmental radio waves. Here the authors report the electric power generation from environmental fluctuations by using superconducting vortex strings in MoGe/YIG bilayer system.
citation_standardnr	6360119
datenlieferant	ipn_articles
feed_id	134647
feed_publisher	Nature Publishing Group (NPG)
feed_publisher_url	http://www.nature.com/
insertion_date	2018-11-23
journaleissn	2041-1723
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	Nature Publishing Group (NPG)
quelle	Nature Communications
relation	http://feeds.nature.com/~r/ncomms/rss/current/~3/9OayY-FkraQ/s41467-018-07352-1
search_space	articles
shingle_author_1	J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh
shingle_author_2	J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh
shingle_author_3	J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh
shingle_author_4	J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh
shingle_catch_all_1	Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations, Published online: 22 November 2018; doi:10.1038/s41467-018-07352-1 Devices that generate electricity from electric fluctuations are promising for wireless power transmission as well as energy harvesting from environmental radio waves. Here the authors report the electric power generation from environmental fluctuations by using superconducting vortex strings in MoGe/YIG bilayer system. J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh Nature Publishing Group (NPG) 2041-1723 20411723
shingle_catch_all_2	Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations, Published online: 22 November 2018; doi:10.1038/s41467-018-07352-1 Devices that generate electricity from electric fluctuations are promising for wireless power transmission as well as energy harvesting from environmental radio waves. Here the authors report the electric power generation from environmental fluctuations by using superconducting vortex strings in MoGe/YIG bilayer system. J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh Nature Publishing Group (NPG) 2041-1723 20411723
shingle_catch_all_3	Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations, Published online: 22 November 2018; doi:10.1038/s41467-018-07352-1 Devices that generate electricity from electric fluctuations are promising for wireless power transmission as well as energy harvesting from environmental radio waves. Here the authors report the electric power generation from environmental fluctuations by using superconducting vortex strings in MoGe/YIG bilayer system. J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh Nature Publishing Group (NPG) 2041-1723 20411723
shingle_catch_all_4	Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations Vortex rectenna powered by environmental fluctuations, Published online: 22 November 2018; doi:10.1038/s41467-018-07352-1 Devices that generate electricity from electric fluctuations are promising for wireless power transmission as well as energy harvesting from environmental radio waves. Here the authors report the electric power generation from environmental fluctuations by using superconducting vortex strings in MoGe/YIG bilayer system. J. Lustikova; Y. Shiomi; N. Yokoi; N. Kabeya; N. Kimura; K. Ienaga; S. Kaneko; S. Okuma; S. Takahashi; E. Saitoh Nature Publishing Group (NPG) 2041-1723 20411723
shingle_title_1	Vortex rectenna powered by environmental fluctuations
shingle_title_2	Vortex rectenna powered by environmental fluctuations
shingle_title_3	Vortex rectenna powered by environmental fluctuations
shingle_title_4	Vortex rectenna powered by environmental fluctuations
timestamp	2025-06-30T23:37:27.176Z
titel	Vortex rectenna powered by environmental fluctuations
titel_suche	Vortex rectenna powered by environmental fluctuations
topic	W V TA-TD U
uid	ipn_articles_6360119