通し 番号 |
媒体 | 放送チャンネル名・ 掲載媒体名等 |
番組名・掲載見出し等 | 放送・ 掲載 年月日 |
掲載面等 |
49 | 新聞 | 日経産業 | 記憶速く電流1/5 | 2016/3/30 | 8面 |
48 | WEB | Asian Scientist | The magnetic appeal of spin-orbit memory | 2016/3/28 | http://www.asianscientist.com/ 2016/03/in-the-lab/tohoku- spin-orbit-magnetic-memory/ |
47 | WEB | 日経テクノロジーオンライン | 超高速・小電流のMRAMに道 | 2016/3/23 | http://techon.nikkeibp.co.jp/ atcl/news/16/032301195/ ?rt=nocnt&d=1458877006682 |
46 | WEB | マイナビニュース | 東北大、超高速・低消費電力集積回路を実現する新構造磁気メモリ素子を開発 | 2016/3/23 | http://news.mynavi.jp/news/ 2016/03/23/090/ |
45 | WEB | PC Watch | 東北大学ら、MRAMにおける“第3のスピン軌道トルク磁化反転方式”を開発 ~超高速と低電流を両立へ |
2016/3/23 | http://pc.watch.impress.co.jp/ docs/news/20160323_749624.html |
44 | WEB | EE Times Japan | スピン軌道トルク用いた第3の新方式、動作を実証 | 2016/3/23 | http://eetimes.jp/ee/articles/ 1603/23/news032.html |
43 | WEB | R&D Magazine | A New-structure Magnetic Memory Device Developed | 2016/3/23 | http://www.rdmag.com/news/ 2016/03/new-structure-magnetic- memory-device-developed |
42 | WEB | J-Net21 | 新構造磁気メモリ素子を開発~スピン軌道トルク磁化反転の第3の方式の動作を実証~ | 2016/3/22 | http://j-net21.smrj.go.jp/ snavi/Contents/0000057507 |
41 | WEB | 日経プレスリリース | 東北大など、新構造磁気メモリ素子を開発 | 2016/3/22 | http://release.nikkei.co.jp/ detail.cfm?relID=409820&lindID=5 |
40 | WEB | EurekAlert | A New-structure Magnetic Memory Device Developed | 2016/3/22 | http://www.eurekalert.org/ pub_releases/2016-03/tu-anm032216.php |
39 | WEB | Nanowerk | A New-structure Magnetic Memory Device Developed | 2016/3/22 | http://www.nanowerk.com/ nanotechnology-news/newsid=42929.php |
38 | WEB | Phys org | A New-structure Magnetic Memory Device Developed | 2016/3/22 | http://phys.org/news/ 2016-03-new-structure- magnetic-memory-device.html |
37 | WEB | Science Daily | A New-structure Magnetic Memory Device Developed | 2016/3/22 | https://www.sciencedaily.com/ releases/2016/03/160322110305.htm |
36 | WEB | Science Newsline Technology | A New-structure Magnetic Memory Device Developed | 2016/3/22 | http://www.sciencenewsline.com/ news/2016032215460044.html |
35 | 新聞 | 日経産業新聞 | 省電力型メモリー開発 | 2016/2/26 | 8面 |
34 | WEB | AZO MATERIALS | Research Sheds Light on New Physics of Antiferromagnet | 2016/2/18 | http://www.azom.com/ news.aspx?newsID=45161 |
33 | WEB | Electronics Weekly | A Japanese team might have found a route to low-power spintronics, and even analogue spintronics, by lifting the lid on anti-ferromagnetic materials and studying spin inside | 2016/2/18 | http://www.electronicsweekly.com/ news/research-news/a-step-on- the-road-to-spintronics-2016-02/ |
32 | WEB | HealthCareBusiness | New physics and application of antiferromagnet uncovered by researchers in Japan | 2016/2/18 | https://www.dotmed.com/ news/story/29191?lang=en |
31 | WEB | Science Newsline | New physics and application of antiferromagnet uncovered | 2016/2/18 | http://www.sciencenewsline.com/ news/2016021800150059.html |
30 | WEB | Technobahn | New physics and application of antiferromagnet uncovered | 2016/2/18 | http://w2.technobahn.com/ articles/2016021800150059.html |
29 | WEB | 日経バイオテクONLINE | 反強磁性体の新しい物理と応用を開拓 | 2016/2/17 | https://bio.nikkeibp.co.jp/ atcl/release/16/02/17/00779/ |
28 | WEB | EurekAlert | New physics and application of antiferromagnet uncovered | 2016/2/17 | http://www.eurekalert.org/ pub_releases/2016-02/ tu-npa021716.php |
27 | WEB | Phys Org | New physics and application of antiferromagnet uncovered | 2016/2/17 | http://phys.org/news/ 2016-02-physics-application- antiferromagnet-uncovered.html |
26 | WEB | Research Sea | New physics and application of antiferromagnet uncovered | 2016/2/17 | http://www.researchsea.com/ html/article.php/aid/9426/cid/ 1/research/science/tohoku_university/ new_physics_and_application_of_ antiferromagnet_uncovered.html |
25 | WEB | Science Daily | New physics and application of antiferromagnet uncovered | 2016/2/17 | https://www.sciencedaily.com/ releases/2016/02/160217091339.htm |
24 | WEB | 日経プレスリリース | 東北大など、スピン・軌道相互作用を用いた磁化の制御に成功 | 2016/2/16 | http://release.nikkei.co.jp/ detail.cfm?relID=406870&lindID=5 |
23 | WEB | J-Net21 中小企業ビジネス応援サイト | 反強磁性体の新しい物理と応用を開拓 | 2016/2/16 | http://j-net21.smrj.go.jp/ headline/report/236583.shtml |
22 | 新聞 | 毎日新聞 | 未踏の世界へ:新しい「磁性半導体」を開発 | 2016/1/14 | 14面 |
21 | WEB | Materials Today | Magnetic domain wall creep | 2015/12/23 | http://www.materialstoday.com/ electronic-properties/news/ magnetic-domain-wall-creep/ |
20 | WEB | Optronics | 東北大、ミクロな磁気構造のゆっくり変化に統一的な理解 | 2015/12/16 | http://optronics-media.com/ news/20151216/38036/ |
19 | WEB | Online News Planet | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://www.onlinenewsplanet.com/ news/1591374/physics-for-the- mechanism-of-slow-change-in- microscopic-magnetic-structures- revealed.html |
18 | WEB | Science Newsline | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://www.sciencenewsline.com/ summary/2015121616050019.html |
17 | WEB | eScience News | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://esciencenews.com/ sources/science.daily/2015/ 12/16/physics.mechanism.slow. change.microscopic.magnetic. structures.revealed |
16 | WEB | News United | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://www.newsunited.com/ physics-for-the-mechanism- of-slow-news/20300685/ |
15 | WEB | HighGeekly | Team reveals the physics for the mechanism of slow change in microscopic magnetic structures | 2015/12/16 | http://www.highgeekly.com/ mobile/news/hyundai-teases- the-ioniq-its-first-all-electric- vehicle.e/team-reveals-the- physics-for-the-mechanism-of- slow-change-in-microscopic- magnetic-structures.html |
14 | WEB | GeekJournal | Team reveals the physics for the mechanism of slow change in microscopic magnetic structures | 2015/12/16 | http://www.geekjournal.net/ articles/2015/12/team-reveals- the-physics-for-the-mechanism- of-slow-change-in-microscopic- magnetic-structures-39769.html |
13 | WEB | NVS24 | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://nvs24.com/news/science/ Physics-for-the-mechanism-of- slow-change-in-microscopic- magnetic-structures-revealed- 2384956.html |
12 | WEB | Newsheadlines | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://www.newsheadlinesspot.com/ update/1307889/physics-for-the- mechanism-of-slow-change-in- microscopic-magnetic-structures- revealed.html |
11 | WEB | Newstime365com | Physics for the mechanism of slow change in microscopic magnetic structures revealed | 2015/12/16 | http://www.newstime365.com/ headlines/1277190/physics-for- the-mechanism-of-slow-change- in-microscopic-magnetic- structures-revealed.html |
10 | WEB | inforigin | 東北大、ミクロな磁気構造のゆっくりした変化に統一的な理解をもたらす | 2015/12/15 | http://crowdpress.jp/ index.php?route=pages/ release_detail/822400 |
9 | WEB | 日経プレスリリース | 東北大、ミクロな磁気構造のゆっくりした変化に統一的な理解をもたらす | 2015/12/15 | http://release.nikkei.co.jp/ detail.cfm?relID=402709&lindID=5 |
8 | 新聞 | 静岡新聞 | 静大電子工学研50周年 式典や成果発表 | 2015/11/17 | 24面 |
7 | 新聞 | 北海道新聞 | ノーベル賞有力 北海道ゆかりの4人 | 2015/11/16 | 11面 |
6 | 新聞 | 日経産業新聞 | 電子磁石の抵抗抑制 | 2015/8/5 | 8面 |
5 | WEB | 日経バイオテク | 国立大学法人東北大学、磁石に電界を加えることでS極とN極が変わる際の摩擦の起源を明らかに | 2015/8/3 | https://bio.nikkeibp.co.jp/ article/pressrelease/20150803/ 186689/?ST=invest |
4 | WEB | 日経速報ニュース | 東北大、磁石の磁気的摩擦を電気的制御に成功しS極とN極が変わる際の摩擦の起源を解明 | 2015/7/31 | |
3 | 新聞 | 日本経済新聞 | 情報通信の研究けん引 東北大・通研が80周年式典 | 2015/6/24 | 2面 |
2 | 新聞 | 河北新報社 | 先進の通信技術 今後も | 2015/6/24 | |
1 | 新聞 | 電子デバイス産業新聞 | スピン技術で超省エネへ | 2015/5/14 | 1面 |
東北大学
省エネルギー・スピントロニクス
集積化システムセンター支援室
〒980-8577
宮城県仙台市青葉区片平2-1-1
TEL : 022-217-6116
E-mail : siencsis.tohoku.ac.jp
Copyright (c) Center for Spintronics Integrated Systems, Tohoku University All Rights Reserved.
東北大学 省エネルギー・スピントロニクス集積化システムセンター