الصوره الاصليه (8,800 × 8,000 بكسل حجم الفايل: 27.07 ميجابايت، نوع MIME: image/jpeg)
الملف دا من ويكيميديا كومنز و ممكن تستعمله المشاريع التانيه.
الوصف بتاعه صفحة وصف الملف هناك معروض تحت..
تنبيه
تحذير:
يمكن لبعض مُتصفحي الإِنترنت أن يواجهوا صعوباتٍ لدى عرض هذه الصُّورة بدقَّتها الكامِلة: لدى هذه الصُّورة عدد ضخم غير اعتيادي مِن النِّقاط، ومِن المُحتمل عدم تحميلها بشكل صحيحٍ في المُتصفِّح الذي قد يتوقف عن العمل نتيجة لذلك. عوضاً عن ذلك، مِن المُستحسن أن تضغط بزرّ الفأرة اليمين على وصلة دقة كاملة وتحفظها على جهازك. عندها يمكن اسخدام برامج خارجية لعرض وتعديل الصورة.
English: A bubbling cauldron of star birth is highlighted in this new image from NASA's Spitzer Space Telescope. Infrared light that we can't see with our eyes has been color-coded, such that the shortest wavelengths are shown in blue and the longest in red. The middle wavelength range is green.
Massive stars have blown bubbles, or cavities, in the dust and gas -- a violent process that triggers both the death and birth of stars. The brightest, yellow-white regions are warm centers of star formation. The green shows tendrils of dust, and red indicates other types of dust that may be cooler, in addition to ionized gas from nearby massive stars. Cygnus X is about 4,500 light-years away in the constellation Cygnus, or the Swan.
Blue represents light at 3.6 microns: 4.5-micron light is blue-green; 8.0-micron light is green; and 24-micron light is red. These data were taken before the Spitzer mission ran out of its coolant in 2009, and began its "warm" mission.
Observers:
Joseph L. Hora (Harvard-Smithsonian Center for Astrophysics), Rob Gutermuth (Smith College), Kathleen Kraemer (Boston College), Don Mizuno (Boston College), Sean Carey (Spitzer Science Center), Sylvain Bontemps (Observatoire de Bordeaux), S. Thomas Megeath (University of Toledo), Nicola Schneider (CEA/Saclay), Frederique Motte (CEA/Saclay), Howard A. Smith (Harvard-Smithsonian Center for Astrophysics), Eric Keto (Harvard-Smithsonian Center for Astrophysics), Lori E. Allen (NOAO), Joseph Adams (Cornell University), Robert Simon (University of Cologne), Stephan Price (Boston College), Giovanni G. Fazio (Harvard-Smithsonian Center for Astrophysics), Xavier Koenig (NASA/GSFC)
إنَّ جميع المواد المُنشأة بواسطة مُستشعِرات مِسبار الشمس وغلافها محميَّة بحقوق التَّأليف والنَّشر، ويلزم الحصول على تصريح قبل استعمالها في الأنشطة غير الرِّبحيَّة. انظر صفحة حقوق التَّأليف والنَّشر الخاصَّة بالمِسبار.
{{Information |Description ={{en|1=A bubbling cauldron of star birth is highlighted in this new image from NASA's Spitzer Space Telescope. Infrared light that we can't see with our eyes has been color-coded, such that the shortes
الملف ده فيه معلومات إضافيه، غالبا ما تكون أضيفت من الديجيتال كاميرا أو السكانر ح الضوئى المستخدم فى نقل الملف للكومبيوتر.
إذا كان الملف اتعدل عن حالته الأصلية، فبعض التفاصيل مش ها تعبر عن الملف المعدل.
عنوان الصورة
A bubbling cauldron of star birth is highlighted in this new image from NASA's Spitzer Space Telescope. Infrared light that we can't see with our eyes has been color-coded, such that the shortest wavelengths are shown in blue and the longest in red. The middle wavelength range is green.
Massive stars have blown bubbles, or cavities, in the dust and gas -- a violent process that triggers both the death and birth of stars. The brightest, yellow-white regions are warm centers of star formation. The green shows tendrils of dust, and red indicates other types of dust that may be cooler, in addition to ionized gas from nearby massive stars.
Cygnus X is about 4,500 light-years away in the constellation Cygnus, or the Swan.
Blue represents light at 3.6 microns: 4.5-micron light is blue-green; 8.0-micron light is green; and 24-micron light is red. These data were taken before the Spitzer mission ran out of its coolant in 2009, and began its "warm" mission.