Real News On-line!




近赤外線カメラ(NIRCam)でのWebの最初の星の光の検出とのミラー調整を開始した後、望遠鏡チームは望遠鏡に電力を供給するための次のステップに懸命に取り組んでいます。 さらに進歩するには、チームは別の機器である精密誘導センサーを使用して、ガイドスターに取り付け、望遠鏡を上に向けたままにする必要があります。[{” attribute=””>accuracy. We have asked René Doyon and Nathalie Ouellette of the Université de Montréal to explain how Webb uses its Canadian instrument in this process.

“After being powered on January 28, 2022, and undergoing successful aliveness and functional tests, Webb’s Fine Guidance Sensor (FGS) has now successfully performed its very first guiding operation! Together with the Near-Infrared Imager and Slitless Spectrograph (NIRISS), the FGS is one of Canada’s contributions to the mission.

“To ensure Webb stays locked on its celestial targets, the FGS measures the exact position of a guide star in its field of view 16 times per second and sends adjustments to the telescope’s fine steering mirror about three times per second. In addition to its speed, the FGS also needs to be incredibly precise. The degree of precision with which it can detect changes in the pointing to a celestial object is the equivalent of a person in New York City being able to see the eye motion of someone blinking at the Canadian border 500 kilometers (311 miles) away!

“Webb’s 18 primary mirror segments are not yet aligned, so each star appears as 18 duplicate images. On February 13, FGS successfully locked onto and tracked one of these star images for the first time. The FGS team was thrilled to see this ‘closed loop guiding’ working! From now on, most of the alignment process of the telescope mirrors will take place with FGS guiding, while NIRCam images provide the diagnostic information for mirror adjustments.”

René Doyon, principal investigator for FGS/NIRISS, Université de Montréal; and Nathalie Ouellette, Webb outreach scientist, Université de Montréal


  • Webプロジェクトの副チーフサイエンティスト、ジョナサンガードナー NASAゴダードスペースフライトセンター
  • 宇宙望遠鏡科学研究所のWebbサイエンスコミュニケーションプロジェクトサイエンティスト、アレクサンドラロックウッド
READ  日本は冬の前にCOVID-19の落ち着きの場合にベッド、ブースターショットを準備します