A state telescope almost 25 years in the manufacture will eventually reveal its first pictures on Monday, June 23, and you can watch the event in real time.
The Vera C. Rubin Observatory, stood on a mountain in the Chilean Andes, have the largest digital camera ever built for astronomy. The telescope, controlled by the National Science Foundation (NSF) and the Department of Energy (DOE), will use this car, a 3.2-gigapixel camera to capture ultra-high-defining defining images and videos of the cosmos. During Monday’s event, the NSF and Doe will show Rubin’s first images to the public and display one of the high-resolution time “films” of the visible sky from the observatory.
You can participate in tuning into a lifetime or attend one of the personnel clock celebrations in museums, universities and planetaries around the world. The observatory will start a lifetime at 11 o’clock ET, and you can watch it here. You can also use the interactive map on the observatory Website Find a clock party near you.
https://www.youtube.com/watch?v=ZV22_AMSReo
More than two decades after the Rubin Observatory was first conceived In a sketch of “Back Napkin”, building on this huge telescope finally ends. Monday event marks the beginning of the observatory’s ambitious scientific operations. Finally this year, Rubin will start the legacy survey of space and time (LSST)-a non-precedent decade-long survey of the night sky.
This endeavor will produce 60 petitus data that will help scientists discover the true nature of dark matter and dark energy, catalog the solar system, explore the changing sky and understand the structure and function of our milk road galaxy. Rubin will use its 27.6-foot (8.4-meter) Simonyi Survey Telescope-Who unique three-mirror design Includes The largest convex mirror ever made – to observe the cosmos on an automatic schedule. Each 30-second exhibition will cover an area about 45 times the size of the full moon. The huge LST camera will capture wide fields and join them to create a complete view of the southern sky every three nights.
Dedicated computer facilities will process Rubin’s data in real time and issue global alerts on changes in the sky in minutes of detection. The findings of the observatory will be inserted into a massive archive, which will widely increase the amount of data available to scientists.
Researchers led by astronomer Meg Schwamb at Queen University Belfast Newly rated That Rubin could triple the number of known nearby terrestrial objects (NEO) from about 38,000 to 127,000, to detect ten times more trans-Neptune objects than currently cataloged, and provide colorful, detailed observations of more than 5 million major watteoids to about 1.4 million. Papers describing these forecasts and the Schwamb program and her colleagues developed to make them, called A spellCurrently available at the Preprint server arxiv.
“With this data, we can update the textbooks of the formation of a solar system and widely improve our ability to notice – and perhaps deviate – the asteroids that could threaten the land,” said Mario Juric, a member of the team and astronomer at the University of Washington, at university. Statement.
In many ways, The Rubin Observatory will continue the legacy of its nameAstronomer Vera Rubin. Her work helped prove the existence of dark matterA paradigm-changing find for the field of astronomy. What’s more, she has published more than 100 scientific articles, did new research on spiral galaxies and galaxy rotation, and served as a trail for women in science. Like Rubin the astronomer, the Rubin Observatory will help insert the field into a completely new era of research and discovery.
With its avant -garde abilities, Rubin’s first images certainly blur. Monday event is only the beginning of the mission of this observatory to map the cosmos in unprecedented detail, unlocking new insights into the secrets of the universe.
