In A New Release On October 02, 2023 - James Webb Telescope Unveils Stunning Images Of Orion Nebula's

Discovery Alert! James Webb Space Telescope has captured the enigmatic SN 1987A in a new image released on Aug 31, 2023

🔭 The James Webb Space Telescope has captured the enigmatic SN 1987A like never before, revealing intricate details that have left scientists and space enthusiasts awestruck. From the mesmerizing keyhole-shaped core to the delicate crescents that adorn its vicinity, prepare to be captivated by the celestial ballet of materials and energies.

🌟 But that's not all – an equatorial ring, formed eons before the supernova's explosive spectacle, paints a mesmerizing portrait with its vibrant hot spots. And let's not forget the outer expanse, where diffuse emissions and faint outer rings await your exploration.

🎨 The colors in this cosmic masterpiece are as vivid as the tale they tell: blue, cyan, yellow, orange, and red, each representing a different wavelength and a unique facet of SN 1987A's enchanting story.

🔍 Join us on this interstellar journey as we unravel the mysteries of SN 1987A with the groundbreaking insights of the James Webb Telescope. Get ready to witness the universe like never before! 🌌✨

Read the full article here

📸 Image Credits: NASA, ESA, CSA, M. Matsuura (Cardiff University), R. Arendt (NASA’s Goddard Spaceflight Center & University of Maryland, Baltimore County), C. Fransson

Observation Alert! James Webb Telescope Takes a Peek at the Dazzling Butterfly Nebula this week on Sep 9, 2023. Read more about this observation here

Travel through the universe to the butterfly nebula in this mesmerizing journey.

Meet #Pallene a tiny moon of #Saturn that #jameswebbtelescope is observing this week. For the complete James Webb observation schedule of this week, visit - https://jameswebbdiscovery.com/astronomy-news/james-webb-space-telescope-weekly-schedule-june-19-2023-to-june-25-2023

NASA's Cassini spacecraft captured a picture of the tiny, 4-kilometer-wide (3-mile-wide) moon Pallene, in front of the planet Saturn. Saturn is more than 120,000 kilometers (75,000 miles) wide at its equator. This image, was taken on Oct. 16, 2010. Image Credit: NASA/JPL/SSI

https://www.jameswebbdiscovery.com/hobbies/astronomy/best-telescopes-you-can-buy-right-now-in-october-2024

OTD Last Year Stellar Nursery of The Pillars of Creation was revealed by James Webb Telescope.

If you missed this release, Read full article here - James Webb Discovery - Stellar Nursery of The Pillars of Creation revealed by James Webb Telescope #OTD #JamesWebbTelescope #PillarsofCreation

Discovery Alert! Mindblowing Discovery released by the Webb Telescope on December 13, 2023. Webb Telescope Spots Record-Breaking Free-Floating Tiny Brown Dwarf. Read full article here.

Discovery Alert! Mindblowing Discovery released by the Webb Telescope on December 13, 2023. Webb Telescope Spots Record-Breaking Free-Floating Tiny Brown Dwarf. Read full article here.

Dive into the celestial unknown with the latest discovery from NASA's James Webb Space Telescope! 🌠🔭 Our astronomers have uncovered the tiniest free-floating brown dwarf, challenging everything we thought we knew about star formation. 🌟🤯

🔍 What's the Buzz? This groundbreaking find within the star cluster IC 348 has scientists buzzing! 🌌🔍 Tiny, free-floating brown dwarfs—larger than planets yet not quite stars—have been discovered, redefining the boundaries of our cosmic understanding. 🌌🔬

📸 Jaw-Dropping Imagery! Feast your eyes on stunning imagery captured by the Near-Infrared Camera (NIRCam) on the Webb Telescope. 📷✨ See wispy curtains of interstellar material, reflection nebulae, and even carbon-containing molecules called PAHs! 🌈💫

🤔 Mysteries Unveiled! The smallest brown dwarf, weighing only three to four times Jupiter's mass, challenges conventional theories of star formation. 🌠🤔 Unravel the cosmic mysteries with us! 🚀💡

🌪️ Stellar Sculptors! Learn how winds from the most massive stars in the cluster contribute to the magnificent loops and patterns observed in the cosmic tapestry. 🎨✨

🌏 Join the Space Conversation! Let's explore the universe together! 🚀💬 Share your thoughts, questions, and cosmic excitement in the comments. 💙🌌

👉 Read the Full Article here - Delve deeper into the cosmos with NASA's James Webb Space Telescope. Click the link above to embark on a journey of discovery! 🌌📖

#NASA #WebbTelescope #SpaceDiscovery #CosmicWonders #StellarEvolution #AstronomyMagic ✨🌠

The evolutionary paths of supermassive black holes and their host galaxies

A new paper entitled “Evolutionary Paths of Active Galactic Nuclei and Their Host Galaxies,” published on August 17, 2023, in Nature Astronomy, provides critical new insights on the co-evolution of supermassive black holes and their host galaxies. The tight correlations observed between the masses of supermassive black holes and the properties of their host galaxies have long intrigued astronomers. No consensus has been reached, however, on how the black hole-galaxy relations arose or how they evolved over time. The specific link between the black hole mass and the properties of host galaxies of AGNs in the nearby universe has remained elusive. The study found that galaxies with actively accreting black holes follow a similar relationship between black hole mass and stellar mass, regardless of galaxy type. Moreover, the position of a galaxy on this relation appears linked to the level of star formation and black hole accretion activity. "Our results unveil evolutionary trajectories for galaxies on the black hole mass-stellar mass plane," said Dr. Zhuang. “The joint evolution of the galaxy and its central black hole appears synchronized over long timescales. Galaxies that have overweight black holes catch up by making more stars. Those that have skinny black holes allow the black hole to eat more. In the end, the two reach a happy balance.”   The availability of a common gas supply for black hole accretion and star formation may account for the lockstep, synchronized growth of objects on the local relation. The evolutionary path of objects with undermassive black holes situated below the local relation supports a scenario suggested by recent simulations in which black hole growth initially lags behind star formation but later the situation reverses after the gas becomes stabilized at higher stellar mass.  AGNs with overmassive black holes above the local relation continue to gain stellar mass, consistent with the detection of active star formation and abundant gas content in early-type AGN host galaxies. These trajectories suggest that radiative-mode AGN feedback mechanisms, which are expected to suppress star formation, are less effective for galaxies below the scaling relation. For galaxies above the relation, kinetic-mode feedback appears insufficient to halt long-term star formation. "This work provides new insights on the coevolution of supermassive black holes and their host galaxies that can serve as the definitive benchmark and framework for evolutionary studies," highlighted Prof. Ho. "The results offer critical observational constraints for numerical simulations modeling the complex interplay between black holes and their host galaxies." “This article explores the evolutionary paths of galaxies on the black hole mass–stellar mass plane in the nearby Universe, linking the properties of star formation and black hole accretion and providing critical constraints for active galactic nuclei feedback,” the editor of Nature Astronomy highly commends. “The findings in this paper are extremely interesting and are quite important for our understanding of black hole and galaxy co-evolution across cosmic times and their star formation and accretion,” says one of the reviewers.

Observation Alert! James Webb Telescope Targets Cigar Galaxy (M82) on the Last Day of 2023. Read the full article here

🌠✨ Did you catch the cosmic spectacle as we waved goodbye to 2023? 🔭🔍 The James Webb Space Telescope (JWST) fixed its gaze on the mesmerizing Cigar Galaxy, also known as M82, unraveling celestial secrets on the very last day of the year! 🌌🎇

👀 What's the Buzz? M82, with its elongated shape earning it the nickname "Cigar Galaxy," is a hub of cosmic activity located 12 million light-years away. 🚀💫 The JWST, armed with its infrared prowess, promises to reveal hidden wonders—from intense star formation to the dance of a supermassive black hole at its core. 🌌🔍

🔍 JWST's Superpowers: Why is everyone buzzing about the JWST? 🤔 This space observatory boasts unprecedented sensitivity, infrared capabilities that pierce through cosmic dust, and a massive 21-foot mirror for crystal-clear observations! 🌐✨

💡 Anticipated Discoveries: As the JWST turns its gaze on M82, get ready for a cosmic adventure! 🚀✨ Expect revelations about star formation, insights into the supermassive black hole, and even a peek into the exoplanet neighborhood! 🌟🔭

🎉✨ #SpaceExploration #JWST #CigarGalaxyMagic 🌌🔭

Kepler 186f: An Exoplanet Worth Exploring with the James Webb Telescope

The universe is vast, and the search for other habitable worlds is an exciting and ongoing pursuit. Exoplanets, planets orbiting stars beyond our solar system, have become a hot topic in astronomy in recent years. Among them, Kepler 186f is a particularly intriguing exoplanet that has garnered a lot of attention due to its potential for harboring life. The upcoming James Webb Space Telescope (JWST) observations are expected to provide more insights into Kepler 186f and help answer some of the most pressing questions about this exoplanet. Read more here - James Webb Discovery - Kepler 186f: An Exoplanet Worth Exploring with the James Webb Telescope

Webb's Dazzling Collection Unveiled: A Mosaic of 19 Face-On Spiral Galaxies

In an exciting release on January 29, 2024 - Webb's Dazzling Collection Unveiled: A Mosaic of 19 Face-On Spiral Galaxies - For the latest discoveries visit www.jameswebbdiscovery.com - In a groundbreaking revelation, a treasure trove of mesmerizing images captured by NASA's James Webb Space Telescope has just been made public, showcasing face-on spiral galaxies in near- and mid-infrared brilliance. For centuries, humanity has meticulously mapped Earth's features, advancing our understanding through sophisticated instruments. This extraordinary collection, featuring 19 face-on spiral galaxies, reveals stars, gas, and dust on a minute scale beyond our own galaxy.