New techniques developed by the U.S. National Science Foundation National Radio Astronomy Observatory and SpaceX enable radio astronomy telescopes to operate without interference from satellite transmissions. The techniques allow communities near radio telescopes to access high-speed internet without negatively impacting the telescopes' observations of distant astronomical objects. Click to learn more!
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Breakthrough in Daytime Astronomy with the Huntsman Telescope 🌞🔭 Astronomers at Macquarie University have achieved a significant breakthrough: observing stars, satellites, and more during daylight hours! Using innovative light filters on the Huntsman Telescope, they’ve overcome the challenge of sunlight washing out celestial objects. Why It's Cool: 🌟 24/7 Observation: No more waiting for nightfall to study the stars. 🛰️ Satellite Tracking: Helps prevent space collisions with continuous monitoring. Why It Matters: 🌌 Continuous Monitoring: Enables long-term studies of stars like Betelgeuse, which is nearing a supernova. 📡 Satellite Tracking: Essential for tracking 10,000+ active satellites and preventing collisions. This breakthrough opens new doors for uninterrupted, 24/7 observation of the cosmos. 🌠✨ The action happening at Siding Springs Observatory in Coonabarabran, Australia is changing the game for astronomy! Are you excited about the future of astronomy? Reshare ♻️ if you think this is awesome! #Astronomy #Innovation #HuntsmanTelescope #DaytimeObservation #SpaceExploration #Astrophotography
Stargazing in broad daylight: How a multi-lens telescope is changing astronomy
phys.org
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After nearly a decade of meticulous construction, The Guardian reports that a cutting-edge telescope in Chile is poised to unveil the most remarkable vistas of the universe to date 🌍 🔭 The Vera C Rubin Observatory, a $1.9 billion marvel situated in the Chilean desert, is geared to amass an unparalleled volume of astronomical data over the coming decade. Beyond its scientific prowess, the observatory's futuristic architecture adds to its allure, making it a visually striking landmark in the realm of astronomy. It is designed to capture an unprecedented amount of astronomical data in a 10-year survey called the LSST (Legacy Survey of Space and Time). “Before this, telescopes saw small areas of the space, looking at very specific information for a very specific problem, but this is like a lighthouse,” he said, his hands spreading out to convey the vast celestial canopy. “It [illuminates] different parts of the sky. It is the fastest-moving telescope ever built.” #veracrubinobservatory #astronomy #science https://lnkd.in/eufJJmSQ 💥 pe-chile-vera-c-rubin-observatory?utm_source=theknowmedia.beehiiv.com&utm_medium=newsletter&utm_campaign=the-know-daily-tuesday-6-february-2024
State-of-the-art telescope in Chile to offer best view yet of universe
theguardian.com
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New Coordination System Allows Satellite Internet and Radio Astronomy to Share the Sky, Los Angeles CA (SPX) Aug 10, 2024 Astronomers rely on clear skies and undisturbed frequencies to explore the universe. But as satellite technology grows, so does the potential for interference with these sensitive observations. A new collaboration between the U.S. National Science Foundation's National Radio Astronomy Observatory (NSF NRAO) and SpaceX demonstrates how radio astronomers and satellite internet providers
New Coordination System Allows Satellite Internet and Radio Astronomy to Share the Sky
copernical.com
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Title: Advancements in Optical Interferometry: Illuminating the Cosmos Introduction: Optical interferometry stands as a pinnacle of technological innovation in astronomy, offering astronomers unprecedented capabilities to study celestial objects with unparalleled precision and detail. By combining the signals from multiple telescopes, interferometric techniques overcome the limitations of individual observatories, enabling groundbreaking discoveries across various scales of the universe. Body: 1. Principles of Interferometry: At its core, interferometry relies on the principle of interference, where light waves from different telescopes are combined to create an interference pattern. This pattern contains valuable information about the spatial distribution and characteristics of the observed object, allowing astronomers to reconstruct high-resolution images with far greater detail than traditional telescopes. 2. Long Baseline Interferometry: Long baseline interferometry involves linking telescopes separated by significant distances, effectively creating a virtual telescope with a diameter equivalent to the distance between the individual observatories. This extended baseline enhances angular resolution, enabling astronomers to discern fine details in distant objects such as stars, galaxies, and even extragalactic phenomena like quasars and active galactic nuclei. 3. Aperture Synthesis: Aperture synthesis is a technique within interferometry where an array of smaller telescopes acts as a single large aperture. By precisely timing and combining the signals from each telescope, astronomers can synthesize the effect of a much larger telescope, achieving exceptional resolution without the cost and complexity of constructing a single massive observatory. 4. Precision Astrometry and Exoplanet Detection: Interferometric astrometry enables precise measurements of stellar positions and motions, facilitating the detection and characterization of exoplanets through the subtle gravitational perturbations they induce on their parent stars. By monitoring the wobble of stars caused by orbiting planets, interferometric techniques contribute to the growing catalog of known exoplanetary systems, shedding light on their orbital dynamics and physical properties. Conclusion: Optical interferometry represents a cornerstone of modern astronomical instrumentation, offering unparalleled insights into the cosmos across a wide range of spatial and temporal scales. From probing the intricate structures of nearby stars to unraveling the mysteries of distant galaxies and beyond, interferometric techniques continue to push the boundaries of astronomical exploration, fostering new discoveries and shaping our understanding of the universe's grand tapestry. As technology advances, the future holds even greater promise for optical interferometry, propelling astronomy into realms of discovery yet unimagined.
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Using the Green Bank Observatory’s Green Bank Telescope and SARAO - South African Radio Astronomy Observatory’s MeerKAT Telescope, an international team of astronomers uncovered 10 monstrous neutron stars in the constellation Sagittarius. Called pulsars, these exotic stars are a part of the Terzan 5 star cluster, which is home to nearly 50 pulsars and hundreds of thousands of other stars. Learn why this star cluster is so unique: https://lnkd.in/e8nxgmp3
Telescope Tag-Team Discovers Galactic Cluster’s Bizarre Secrets | AUI
https://aui.edu
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The Impact of LEO Satellites on Astronomy: A Threat to Our View of the Cosmos #SpaceEconomy #NewSpace #NewSpaceEconomy #Space #CommercialSpace
The Impact of LEO Satellites on Astronomy: A Threat to Our View of the Cosmos
http://newspaceeconomy.ca
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An astronomy observatory station is a facility designed for observing celestial objects and phenomena in the night sky. These stations are typically equipped with advanced telescopes, detectors, and instruments that allow astronomers to study various aspects of the universe, such as stars, planets, galaxies, nebulae, and other cosmic phenomena. Observatory stations are often situated in remote locations with minimal light pollution to maximize the clarity of observations. They can be found atop mountains, in deserts, or even in space aboard orbiting satellites. Some observatories specialize in specific areas of research, like solar observatories that focus on the sun or radio observatories that detect radio waves emitted by celestial objects. These stations play a crucial role in advancing our understanding of the cosmos. They contribute to scientific research, discovery of new celestial objects, exploration of exoplanets, understanding the origins of the universe, and studying various astronomical phenomena. Additionally, observatories often engage in public outreach and education, allowing visitors to learn about astronomy and experience the wonders of the universe firsthand through guided tours, workshops, and stargazing events. To learn more, please contact Dwisolar Systems for more details space.sciences@dwisolar.com.my
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https://lnkd.in/es3uH4q7 Exploring the Universe A Journey from Arecibo to FAST eBook Chapter 1: Introduction to Radio Astronomy The History of Radio Astronomy Radio astronomy, a fascinating field that allows us to study the universe using radio waves, has a rich and intriguing history. From its humble beginnings to the groundbreaking discoveries of today, the journey of radio astronomy has been one of constant innovation and discovery. In this subchapter, we will explore the milestones that have shaped the field, from Puerto Rico’s Arecibo Observatory to China’s F.A.S.T. radio telescope. The origins of radio astronomy can be traced back to the early 1930s when Karl Jansky, an engineer at Bell Labs, accidentally discovered radio waves emanating from the Milky Way. This accidental discovery sparked the interest of scientists and astronomers, leading to the establishment of the first radio observatories. One of the most iconic radio observatories in the world is the Arecibo Observatory in Puerto Rico. Built in the 1960s, this massive dish-shaped antenna became the world’s largest single-aperture telescope for decades. Its unique design and strategic location allowed astronomers to observe celestial obj
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