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- 本画像はログイン後にご覧いただけます1949年03月01日「越後地震説」の中村教授
「越後地震説」を発表し、新潟市で地磁気の観測を行う中村左衛門太郎・東北大教授=1949(昭和24)年3月1日(24年内地1216)
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1957年08月03日最北の女満別地磁気観測所女満別地磁気観測所の地磁気計小屋。左は地磁気絶対観測小屋=1957(昭和32)年8月3日出稿 (32年内地1265)
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- 本画像はログイン後にご覧いただけます1974年03月15日(りきたけ・つねじ) 力武常次
東大教授(地震研究所)、日本大教授(物理学部)、地震防災対策強化、地域判定会委員、南極特別委員会(地磁気担当)=1974(昭和49)年2月16日撮影
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1974年10月25日文化勲章に永田武氏「月の石から南極の隕石(いんせき)に研究を広げていきたい」と文化勲章受章の抱負を語る永田武さん(地球物理学)。専門は古地磁気学だが、宇宙飛行士が持ち帰った「月の石」の鑑定にも一役買った=1974(昭和49)年10月25日、東京・板橋の国立極地研究所
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1975年04月01日南極のボストーク基地01.04.1975 The “Vostok“ research station, the south geomagnetic pole and the cold pole of the planet. A Soviet aerologist launching a radiosonde. Antarctica. 1975. Tserkover / Sputnik、クレジット:Sputnik/共同通信イメージズ
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- 本画像はログイン後にご覧いただけます1979年11月16日(りきたけ・つねじ) 力武常次
東大教授(地震研究所)、日本大教授(物理学部)、地震防災対策強化、地域判定会委員、南極特別委員会(地磁気担当)=1979(昭和54)年11月16日撮影
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1984年02月18日Vostok station in Antarctica18.02.1984 A view of the Vostok research station in the area of the south geomagnetic pole in eastern Antarctica. Formerly Societ and currently the only Russian continental reseach station was opened on December 16th 1957 and was named after the sloop which was the first Russian vessel to travel around the world. P. Astakhov / Sputnik、クレジット:Sputnik/共同通信イメージズ
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1988年03月01日Soviet traveler Viktor Boyarsky01.03.1988 Soviet traveler Viktor Boyarsky, left, at the sign marking the south geomagnetic pole in the Antarctic. Photo from the polar explorer‘s personal archive. Alexey Varfolomeev、クレジット:Sputnik/共同通信イメージズ
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1989年03月04日南極のボストーク基地04.03.1989 Traffic signs at the Vostok Soviet Antarctic research station in the vicinity of the South Geomagnetic Pole V. Chistiakov / Sputnik、クレジット:Sputnik/共同通信イメージズ
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1994年06月01日Geomag therapeutic couch01.06.1994 Geomag therapeutic couch Yuriy Zaritovskiy、クレジット:Sputnik/共同通信イメージズ
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2001年05月10日ハトを放す原田学長 ハトは内耳で地磁気感知帰巣実験のハトを放す原田康夫・広島大学長=10日、広島県東広島市
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2003年05月08日「カラー」【】 ◎第44次南極観測隊員、越冬隊 【研究観測】門倉昭(国立極地研究所資料系)、佐藤薫(国立極地研究所北極圏環境研究センター)、横山恵美(気象庁地磁気観測所)、中野啓(静岡大大学院理工学研究科大学院生)、吉沢宣之(大分工業高専)、亀田貴雄(北見工業大工学部)(かどくら・あきら、さとう・かおる、よこやま・めぐみ、なかの・けい、よしざわ・のぶゆき、かめだ・たかお)
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2008年08月26日放牧中の乳牛 牛やシカ、地磁気を感知?放牧中の牛。地磁気を感知しているのか?=5月、北海道浜中町
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2017年05月06日市原市の地層 地球史に「千葉時代」を研究チームが申請する77万年前の地磁気反転の証拠が残された地層=4月25日、千葉県市原市
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2017年05月06日地磁気反転の証拠が残る層 地球史に「千葉時代」を研究チームが申請する千葉県市原市の地層。下部に水平方向にのびる割れ目のような筋が77万年前の地磁気反転の証拠が残る層=4月25日
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2017年05月06日地球史に「千葉時代」を千葉・地磁気反転を示す地層
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2017年05月06日地球史に「千葉時代」を千葉・地磁気反転を示す地層
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2017年05月06日地球史に「千葉時代」を千葉・地磁気反転を示す地層
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2017年05月06日地球史に「千葉時代」を千葉・地磁気反転を示す地層
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2017年06月07日地磁気反転の証拠が残る層 地球史「千葉時代」申請へ千葉県市原市の地層。下部に水平方向にのびる割れ目のような筋が77万年前の地磁気反転の証拠が残る層=4月
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2017年06月07日地球史「千葉時代」申請へ千葉県市原市 地磁気反転を示す地層
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2017年06月07日地球史「千葉時代」申請へ千葉県市原市 地磁気反転を示す地層
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2017年06月07日地球史「千葉時代」申請へ千葉県市原市 地磁気反転を示す地層
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2017年06月07日地球史「千葉時代」申請へ千葉県市原市 地磁気反転を示す地層
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2017年11月27日講演した岡田教授 時代の命名「最後の機会」「チバニアンと地磁気逆転」をテーマに講演する岡田誠茨城大教授=27日午後、千葉市
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2017年11月27日講演する岡田教授 時代の命名「最後の機会」「チバニアンと地磁気逆転」をテーマに講演する岡田誠茨城大教授=27日午後、千葉市
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2018年06月15日チバニアンを訪れた人 「命名後押し」高まる期待「養老川流域田淵の地磁気逆転地層」を訪れた人たち=15日、千葉県市原市
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earth???s atmosphere after a geomagnetic storm caused many of them to ???take cover??? last week..The company???s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceX???s Starlink team put the satellites into safe mode, helping them to ???take cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earth???s atmosphere after a geomagnetic storm caused many of them to ???take cover??? last week..The company???s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceX???s Starlink team put the satellites into safe mode, helping them to ???take cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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2019年11月13日SX-STARLINK-v-GeoStorm-SpaceX 60 Starlink sat‘s make a flyby over the west coat of Southern California back on Nov 12,2019. Van Nuys CA/USA...On Tuesday Feb 8,2022 SpaceX expects as many as 40 recently-launched satellites will reenter Earthââ¬â¢s atmosphere after a geomagnetic storm caused many of them to ââ¬Åtake coverââ¬Â last week..The companyââ¬â¢s Falcon 9 rocket launched 49 Starlink satellites into low orbit on Thursday, Feb. 3 from Kennedy Space Center in Florida. .According to SpaceX, the satellites were deployed into their intended orbit and each one achieved controlled flight. .The next day, though, a geomagnetic storm hit. During these storms, the atmospheric density where the satellites are deployed increased. With the rapid change in conditions, SpaceXââ¬â¢s Starlink team put the satellites into safe mode, helping them to ââ¬Åtake cover from the storm. (Credit Image: © Gene Blevins/ZUMA Press Wire)、クレジット:©Gene Blevins/ZUMA Press Wire/共同通信イメージズ
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01:44.372020年01月17日地球史に「チバニアン」 日本で初「感無量」46億年の地球史を時代ごとの特徴で分けた「地質年代」のうち、まだ名前が決まっていなかった約77万~約12万年前を千葉県の地層から「チバニアン(千葉時代)」とすることを学術団体、国際地質科学連合(IUGS)が17日、正式決定した。地質年代の名前は欧米の地名に由来するものが多く、日本にちなんだものは初めて。命名を申請していた日本の研究チームの岡田誠(おかだ・まこと)・茨城大教授(古地磁気学)は、都内で記者会見し「何とかたどりつけて感無量だ」と語った。<映像内容>命名を申請していた日本の研究チームの記者会見の様子。左から5番目が岡田教授、撮影日:2020(令和2)年1月17日、撮影場所:東京都立川市 国立極地研究所
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: Annette Siegmüller, researcher at the Lower Saxony Institute for Historical Coastal Research. Using a geomagnetic measurement, archaeologists have searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in Northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2020081701737
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: A small tractor with measuring probes drives over a field. Using a geomagnetic measurement, archaeologists searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: A small tractor with measuring probes drives over a field. Using a geomagnetic measurement, archaeologists searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: Annette Siegmüller, scientist, explains on a map the results of a geomagnetic measurement on an already investigated area. Using a geomagnetic measurement, archaeologists searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in Northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: Jutta Precht (l), district archaeologist of the Verden district and Annette Siegmüller, researcher at the Lower Saxony Institute for Historical Coastal Research, are standing next to the pendant with measuring probes in a field. Using a geomagnetic measurement, archaeologists have searched for traces of a 2000 year old Germanic settlement suspected to have existed in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in Northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
商品コード: 2020081701821
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: A small tractor with measuring probes drives over a field. Using a geomagnetic measurement, archaeologists searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in northern Germany in the first millennium. (Recording with a drone) Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: A small tractor with measuring probes drives over a field. Using a geomagnetic measurement, archaeologists searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: Jens Lühmann, excavation technician at the Lower Saxony Institute for Historical Coastal Research, drives a small tractor with measuring probes over a field. Using a geomagnetic measurement, archaeologists have searched for traces of a 2000 year old Germanic settlement suspected to be located in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in Northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年08月13日Search for Germanic settlement on the outskirts of Bremen13 August 2020, Lower Saxony, Achim: Jutta Precht, district archaeologist of the Verden district. Using a geomagnetic measurement, archaeologists have searched for traces of a 2000 year old Germanic settlement suspected to have existed in the district of Verden. The Institute for Historical Coastal Research investigates, among other things, ports and trade routes in Northern Germany in the first millennium. Photo: Sina Schuldt/dpa、クレジット:DPA/共同通信イメージズ
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2020年12月10日地磁気逆転地層 快挙の「地層」期待集まる「チバニアン」命名の根拠となった「地磁気逆転地層」=7日、千葉県市原市
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2022年09月23日(3)中国の科学者、恐竜卵の研究から絶滅の新たなメカニズムを解明白亜紀末期の山陽盆地における柱状節理を持つ岩(A、B)、地磁気極性シーケンス(C)、天文学的年代調整の結果(D)、恐竜化石の分布(E)、海洋酸素同位体記録(F、G)の変化を表した図。絶滅までの200万年間は盆地における恐竜の多様性が低く、古代の気候、特に気温の変化が恐竜の多様性に重要な影響を与えたことを示唆している。中国科学院古脊椎動物・古人類研究所は20日、中国の科学者による恐竜の卵に関する最新研究が、恐竜の進化の多様性から出発して恐竜絶滅の新たなメカニズムを提示したと明らかにした。研究成果はこのほど、学術誌「米国科学アカデミー紀要(PNAS)」のフロントカバーに選ばれた。(北京=新華社配信)= 配信日: 2022(令和4)年9月23日、クレジット:新華社/共同通信イメージズ
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2022年10月25日New Archaeological Research Backs Up Biblical Claims Of WarOctober 25, 2022, Tel Aviv, Israel: VIDEO AVAILABLE: CONTACT INFO.COVERMG.COM TO RECEIVE**..This image shows: Burnt mud brick wall from Tel Batash (Biblical Timnah) with markings of the field orientation...Accounts found in the Old Testament of military campaigns against the ancient kingdoms of Israel and Judah have been confirmed by a new archaeological study conducted by the Hebrew and Tel Aviv universities..Experts have reconstructed the geomagnetic fields at 21 sites of destruction in Israel to develop a reliable new scientific tool for archeological dating..Their findings indicate that Biblical words and historical evidence line up with the army of Hazael, King of Aram-Damascus, being responsible for the annihilation of Tel Rehov, Tel Zayit, Horvat Tevet and Gath. Geomagnetic mapping also appears to chime with the text stating that areas in Southern Judah were destroyed by the Edomites, who took advantage of the destruction of Jerusalem and the Kingdom of Judah by the Babylonians..Yoav Vaknin explain...
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2022年10月25日New Archaeological Research Backs Up Biblical Claims Of WarOctober 25, 2022, Tel Aviv, Israel: VIDEO AVAILABLE: CONTACT INFO.COVERMG.COM TO RECEIVE**..This image shows: Burnt mud brick wall from Tel Batash (Biblical Timnah) with markings of the field orientation...Accounts found in the Old Testament of military campaigns against the ancient kingdoms of Israel and Judah have been confirmed by a new archaeological study conducted by the Hebrew and Tel Aviv universities..Experts have reconstructed the geomagnetic fields at 21 sites of destruction in Israel to develop a reliable new scientific tool for archeological dating..Their findings indicate that Biblical words and historical evidence line up with the army of Hazael, King of Aram-Damascus, being responsible for the annihilation of Tel Rehov, Tel Zayit, Horvat Tevet and Gath. Geomagnetic mapping also appears to chime with the text stating that areas in Southern Judah were destroyed by the Edomites, who took advantage of the destruction of Jerusalem and the Kingdom of Judah by the Babylonians..Yoav Vaknin explain...
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2022年10月25日New Archaeological Research Backs Up Biblical Claims Of WarOctober 25, 2022, Tel Aviv, Israel: VIDEO AVAILABLE: CONTACT INFO.COVERMG.COM TO RECEIVE**..This image shows: Burnt mud brick wall from Tel Batash (Biblical Timnah) with markings of the field orientation...Accounts found in the Old Testament of military campaigns against the ancient kingdoms of Israel and Judah have been confirmed by a new archaeological study conducted by the Hebrew and Tel Aviv universities..Experts have reconstructed the geomagnetic fields at 21 sites of destruction in Israel to develop a reliable new scientific tool for archeological dating..Their findings indicate that Biblical words and historical evidence line up with the army of Hazael, King of Aram-Damascus, being responsible for the annihilation of Tel Rehov, Tel Zayit, Horvat Tevet and Gath. Geomagnetic mapping also appears to chime with the text stating that areas in Southern Judah were destroyed by the Edomites, who took advantage of the destruction of Jerusalem and the Kingdom of Judah by the Babylonians..Yoav Vaknin explain...
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2022年10月25日New Archaeological Research Backs Up Biblical Claims Of WarOctober 25, 2022, Tel Aviv, Israel: VIDEO AVAILABLE: CONTACT INFO.COVERMG.COM TO RECEIVE**..This image shows: Burnt mud brick wall from Tel Batash (Biblical Timnah) with markings of the field orientation...Accounts found in the Old Testament of military campaigns against the ancient kingdoms of Israel and Judah have been confirmed by a new archaeological study conducted by the Hebrew and Tel Aviv universities..Experts have reconstructed the geomagnetic fields at 21 sites of destruction in Israel to develop a reliable new scientific tool for archeological dating..Their findings indicate that Biblical words and historical evidence line up with the army of Hazael, King of Aram-Damascus, being responsible for the annihilation of Tel Rehov, Tel Zayit, Horvat Tevet and Gath. Geomagnetic mapping also appears to chime with the text stating that areas in Southern Judah were destroyed by the Edomites, who took advantage of the destruction of Jerusalem and the Kingdom of Judah by the Babylonians..Yoav Vaknin explain...
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2022年10月25日New Archaeological Research Backs Up Biblical Claims Of WarOctober 25, 2022, Tel Aviv, Israel: VIDEO AVAILABLE: CONTACT INFO.COVERMG.COM TO RECEIVE**..This image shows: Burnt mud brick wall from Tel Batash (Biblical Timnah) with markings of the field orientation...Accounts found in the Old Testament of military campaigns against the ancient kingdoms of Israel and Judah have been confirmed by a new archaeological study conducted by the Hebrew and Tel Aviv universities..Experts have reconstructed the geomagnetic fields at 21 sites of destruction in Israel to develop a reliable new scientific tool for archeological dating..Their findings indicate that Biblical words and historical evidence line up with the army of Hazael, King of Aram-Damascus, being responsible for the annihilation of Tel Rehov, Tel Zayit, Horvat Tevet and Gath. Geomagnetic mapping also appears to chime with the text stating that areas in Southern Judah were destroyed by the Edomites, who took advantage of the destruction of Jerusalem and the Kingdom of Judah by the Babylonians..Yoav Vaknin explain...
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2022年12月29日Amsterdam IslandDecember 29, 2022, Paris, France, France: Employees and seasonal residents handle the freight transported from the Marion Dufresne multi purpose vessel by a helicopter at the Martin de Vivies research centre, after arriving on the Amsterdam Island, part of the French Southern and Antarctic Lands (TAAF) in the Indian Ocean. The research station at Martin de Vivies, is the only settlement on the Amsterdam island and is the seasonal home to researchers and staff studying biology, meteorology and geomagnetics. (Credit Image: © Alexis Sciard/IP3 via ZUMA Press)、クレジット:©Alexis Sciard/IP3 via ZUMA Press/共同通信イメージズ ※Belgium, Denmark, France and Germany Out
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2022年12月29日Amsterdam IslandDecember 29, 2022, Paris, France, France: A scientist holds a rat on Amsterdam Island, part of the French Southern and Antarctic Lands (TAAF) in the Indian Ocean. The research station of Martin de Vivies is the only settlement on the Amsterdam island and is the seasonal home to researchers and staff studying biology, meteorology and geomagnetics. (Credit Image: © Alexis Sciard/IP3 via ZUMA Press)、クレジット:©Alexis Sciard/IP3 via ZUMA Press/共同通信イメージズ ※Belgium, Denmark, France and Germany Out
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2022年12月30日Amsterdam IslandDecember 30, 2022, Paris, France, France: A winter resident raises the French flag in the early morning at the settlement of Amsterdam island, part of the five administrative districts of the French Southern and Antarctic Lands (TAAF). The research station of Martin de Vivies is the only settlement on the island and is the seasonal home to about thirty researchers and staff studying biology, meteorology, and geomagnetics. (Credit Image: © Alexis Sciard/IP3 via ZUMA Press)、クレジット:©Alexis Sciard/IP3 via ZUMA Press/共同通信イメージズ ※Belgium, Denmark, France and Germany Out
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Observed In HungaryNorthern lights or aurora borealis over the Bukk Mountains are seen in Bogacs, Hungary on 5 November 2023 (Photo by Michal Fludra/NurPhoto)、クレジット:Michal Fludra/NurPhoto/共同通信イメージズ
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2023年11月05日Northern Lights Over The Norwegian SkyThe moon is seen rising over the horizon during an aurora borealis spectacle above the sky of Hamar in Norway. 07 November 2023. These natural phenomena consisting of bright and colourful lights appear in the night sky of the northern hemisphere, near the poles. It is caused by charged solar particles colliding with the Earth‘s atmosphere, creating a light show in the form of curtains, arcs or bands of vibrant colours. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayA woman with a torch is seen at the entrance of a replica Viking dwelling as Northern Lights are seen reflected in the sky over Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayA woman with a torch is seen walking on the snow-filled ground as Northern Lights are seen reflected in the sky over Lofoten, Norway. November 8, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月08日Northern Lights Over The Sky Of Lofoten, NorwayNorthern Lights are seen reflected in the sky over the town of Lofoten, Norway. November 08, 2023. The aurora borealis is a natural astronomical phenomenon consisting of a display of lights across the Earth‘s night sky, mainly visible in the higher latitudes of our planet. They are produced when charged particles (cosmic radiation) collide with the oxygen and nitrogen atoms present in our magnetosphere. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月12日Northern Lights Over Norwegian SkiesThe northern lights are displaying over the skies of Svolvaer, Norway, on November 13, 2023. The aurora borealis, or northern lights, is an atmospheric phenomenon that consists of spots and luminous columns of various colors in the sky, produced by solar radiation and observable at night in the polar regions. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月12日Northern Lights Over Norwegian SkiesThe northern lights are seen displayed over the skies of the town of Svolvert in Norway. November 13, 2023. The aurora borealis or northern lights are an atmospheric event consisting of the appearance in the sky of spots and luminous columns of various shades and is produced by solar radiation; it can be observed at night in the polar regions. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月12日Northern Lights Over Norwegian SkiesThe northern lights are seen displayed over the skies of the town of Svolvert in Norway. November 13, 2023. The aurora borealis or northern lights are an atmospheric event consisting of the appearance in the sky of spots and luminous columns of various shades and is produced by solar radiation; it can be observed at night in the polar regions. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年11月12日Northern Lights Over Norwegian SkiesPeople are observing the Northern Lights unfolding over the skies of Svolvaer, Norway, on November 13, 2023. The aurora borealis, or Northern Lights, is an atmospheric phenomenon that consists of luminous spots and columns of various colors in the sky, produced by solar radiation and visible at night in the polar regions. (Photo by Jorge Mantilla/NurPhoto)、クレジット:Jorge Mantilla/NurPhoto/共同通信イメージズ
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2023年12月17日Auroras Light Up the NorthDecember 17, 2023 - Utah, Canada - A flurry of solar activity in mid-December 2023 sent energized particles crashing into Earth‘s magnetosphere, producing undulating auroras across northern latitudes of our planet. The VIIRS (Visible Infrared Imaging Radiometer Suite) on the NOAA-NASA Suomi NPP satellite captured this image of light from the aurora over western Canada in the early morning of December 17, 2023. The day-night band of VIIRS detects nighttime light in a range of wavelengths from green to near-infrared and uses filtering techniques to observe signals such as city lights, reflected moonlight, and auroras. These auroras may have stemmed from several coronal mass ejections that were observed on December 14 and 15. Minor to moderate geomagnetic storm conditions were expected in the following days. (Credit Image: © NASA Earth/ZUMA Press Wire)、クレジット:©NASA Earth/ZUMA Press Wire/共同通信イメージズ
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2023年12月17日Auroras Light Up the NorthDecember 17, 2023 - Utah, Canada - A flurry of solar activity in mid-December 2023 sent energized particles crashing into Earth‘s magnetosphere, producing undulating auroras across northern latitudes of our planet. The VIIRS (Visible Infrared Imaging Radiometer Suite) on the NOAA-NASA Suomi NPP satellite captured this image of light from the aurora over western Canada in the early morning of December 17, 2023. The day-night band of VIIRS detects nighttime light in a range of wavelengths from green to near-infrared and uses filtering techniques to observe signals such as city lights, reflected moonlight, and auroras. These auroras may have stemmed from several coronal mass ejections that were observed on December 14 and 15. Minor to moderate geomagnetic storm conditions were expected in the following days. (Credit Image: © NASA Earth/ZUMA Press Wire)、クレジット:©NASA Earth/ZUMA Press Wire/共同通信イメージズ
商品コード: 2023122011582
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2024年02月10日(16)中国最北端の野外観測所を訪ねて黒竜江省2日、黒竜江省漠河市の観測所で、地磁気記録室に入る蘇振波所長(右)と劉紀康研究員。中国科学院地質・地球物理研究所が黒竜江省漠河市で運用する中国最北端の野外観測所、黒竜江省漠河地球物理国家野外科学観測研究所では極寒の中、国家重要科学技術基礎プロジェクト「子午プロジェクト」に携わる研究員らが太陽・地球環境の謎を探っている。同プロジェクトは、宇宙環境で起きる事象が人類の生産や生活に及ぼす破壊的な影響を回避、軽減するため、データによる支援を行っている。(漠河=新華社記者/張濤)= 配信日: 2024(令和6)年2月10日、クレジット:新華社/共同通信イメージズ
商品コード: 2024021004852
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2024年02月10日(5)中国最北端の野外観測所を訪ねて黒竜江省2日、黒竜江省漠河市にある観測所の地磁気観測室で、観測用のメガネを見せる蘇振波(そ・しんは)所長。中国科学院地質・地球物理研究所が黒竜江省漠河市で運用する中国最北端の野外観測所、黒竜江省漠河地球物理国家野外科学観測研究所では極寒の中、国家重要科学技術基礎プロジェクト「子午プロジェクト」に携わる研究員らが太陽・地球環境の謎を探っている。同プロジェクトは、宇宙環境で起きる事象が人類の生産や生活に及ぼす破壊的な影響を回避、軽減するため、データによる支援を行っている。(ハルビン=新華社記者/張濤)= 配信日: 2024(令和6)年2月10日、クレジット:新華社/共同通信イメージズ
商品コード: 2024021004790
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2024年02月10日(6)中国最北端の野外観測所を訪ねて黒竜江省2日、黒竜江省漠河市にある観測所の地磁気観測室で、観測中の蘇振波所長(左)と劉紀康研究員。中国科学院地質・地球物理研究所が黒竜江省漠河市で運用する中国最北端の野外観測所、黒竜江省漠河地球物理国家野外科学観測研究所では極寒の中、国家重要科学技術基礎プロジェクト「子午プロジェクト」に携わる研究員らが太陽・地球環境の謎を探っている。同プロジェクトは、宇宙環境で起きる事象が人類の生産や生活に及ぼす破壊的な影響を回避、軽減するため、データによる支援を行っている。(漠河=新華社記者/張濤)= 配信日: 2024(令和6)年2月10日、クレジット:新華社/共同通信イメージズ
商品コード: 2024021004826
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2024年02月10日(17)中国最北端の野外観測所を訪ねて黒竜江省2日、黒竜江省漠河市にある観測所の地磁気観測室で、データを収集する研究員。中国科学院地質・地球物理研究所が黒竜江省漠河市で運用する中国最北端の野外観測所、黒竜江省漠河地球物理国家野外科学観測研究所では極寒の中、国家重要科学技術基礎プロジェクト「子午プロジェクト」に携わる研究員らが太陽・地球環境の謎を探っている。同プロジェクトは、宇宙環境で起きる事象が人類の生産や生活に及ぼす破壊的な影響を回避、軽減するため、データによる支援を行っている。(漠河=新華社記者/張濤)= 配信日: 2024(令和6)年2月10日、クレジット:新華社/共同通信イメージズ
商品コード: 2024021004847
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2024年02月10日(13)中国最北端の野外観測所を訪ねて黒竜江省2日、黒竜江省漠河市の観測所で、地磁気記録室の機器類を巡回点検する蘇振波所長。中国科学院地質・地球物理研究所が黒竜江省漠河市で運用する中国最北端の野外観測所、黒竜江省漠河地球物理国家野外科学観測研究所では極寒の中、国家重要科学技術基礎プロジェクト「子午プロジェクト」に携わる研究員らが太陽・地球環境の謎を探っている。同プロジェクトは、宇宙環境で起きる事象が人類の生産や生活に及ぼす破壊的な影響を回避、軽減するため、データによる支援を行っている。(漠河=新華社記者/張濤)= 配信日: 2024(令和6)年2月10日、クレジット:新華社/共同通信イメージズ
商品コード: 2024021004841
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2024年02月10日(2)中国最北端の野外観測所を訪ねて黒竜江省2日、黒竜江省漠河市にある観測所の地磁気観測室で、観測中の蘇振波所長(左)と劉紀康研究員。中国科学院地質・地球物理研究所が黒竜江省漠河市で運用する中国最北端の野外観測所、黒竜江省漠河地球物理国家野外科学観測研究所では極寒の中、国家重要科学技術基礎プロジェクト「子午プロジェクト」に携わる研究員らが太陽・地球環境の謎を探っている。同プロジェクトは、宇宙環境で起きる事象が人類の生産や生活に及ぼす破壊的な影響を回避、軽減するため、データによる支援を行っている。(ハルビン=新華社記者/張濤)= 配信日: 2024(令和6)年2月10日、クレジット:新華社/共同通信イメージズ
商品コード: 2024021004780
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2024年03月25日Sunspot Region AR3615March 25, 2024, Palm Springs, California, USA: Sunspot Region AR3615 in the last 24hrs has increased in size 50% and now made up of 63 individual Sunspots. It is 3,360 million square kilometers Almost 20 times the size of the Earth. It continues to generate flares and geo-magnetic storms. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ
商品コード: 2024032704436
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2024年04月20日SunspotsApril 20, 2024, Palm Springs, California, USA: 14 Sunspot regions make this the largest number so far in this Solar Cycle 25. These Sunspots have been throwing off Coronal Mass Ejections combimed with a fast Solar wind are causing strong geomagnetic storms on Earth. Auroras have been seen as far south as Pennsylvania, Oregon and Iowa. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ
商品コード: 2024042104522
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2024年05月04日Northern Lights In The United StatesThe Northern Lights are filling up the night sky above the Crossroads Motel near Storm Lake, Iowa, on May 10, 2024. (Photo by Bryon Houlgrave/NurPhoto)、クレジット:Bryon Houlgrave/NurPhoto/共同通信イメージズ
商品コード: 2024051109177
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2024年05月04日Northern Lights In The United StatesThe Northern Lights are filling up the night sky above the Crossroads Motel near Storm Lake, Iowa, on May 10, 2024. (Photo by Bryon Houlgrave/NurPhoto)、クレジット:Bryon Houlgrave/NurPhoto/共同通信イメージズ
商品コード: 2024051109222
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2024年05月04日Northern Lights In The United StatesThe Northern Lights are filling up the night sky above the Crossroads Motel near Storm Lake, Iowa, on May 10, 2024. (Photo by Bryon Houlgrave/NurPhoto)、クレジット:Bryon Houlgrave/NurPhoto/共同通信イメージズ
商品コード: 2024051109227
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2024年05月04日Northern Lights In The United StatesThe Northern Lights are filling up the night sky above the Crossroads Motel near Storm Lake, Iowa, on May 10, 2024. (Photo by Bryon Houlgrave/NurPhoto)、クレジット:Bryon Houlgrave/NurPhoto/共同通信イメージズ
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2024年05月07日Very High Solar ActivityMay 7, 2024, Palm Springs, California, USA: The third day of very high solar activity. The Sunspot areas have produced a number of X-flares, the highest category, as well as other smaller flares. Active conditions are expected to continue with Coronal Mass Ejections (CME) and high speed solar winds from Coronal holes. The Earth can expect to see Geomagnetc storms disrupting radio and increased Auroras. (Credit Image: © Ian L. Sitren/ZUMA Press Wire)、クレジット:©Ian L. Sitren/ZUMA Press Wire/共同通信イメージズ
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2024年05月10日The Sun Erupts An X-class FlareThe sun is rising with a flare over Korla, Xinjiang Uygur Autonomous Region, China, on May 10, 2024. The National Space Weather Monitoring and Warning Center forecasted on May 7, 2024, that the next three days would see moderate to high solar activity levels and the possible eruption of M-class or even X-class flares. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA
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