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"HIP 65426 b was discovered in 2017 by the European Southern Observatory's Very Large Telescope in Chile, which observed the exoplanet in short wavelengths of infrared light because longer wavelengths are blocked by Earth's atmosphere for ground-based observatories. Because Webb is in space, he has access to more of the infrared spectrum and can see more details in distant planets. Webb's images are not the first direct images of exoplanets; the Hubble Space Telescope has captured images of other alien worlds, but it is difficult to do so because the strong brightness of a planet's neighbouring star can obscure the light from that exoplanet. HIP 65426 b, for example, is 10,000 times fainter than its star."

https://lnkd.in/eaFJb2HZ China-France satellite launched to monitor most powerful explosions in space The Space-based multi-band astronomical Variable Objects Monitor (SVOM) has blasted off to record intense gamma-ray bursts

📃Scientific paper: No signature of the birth environment of exoplanets from their host stars' Mahalanobis phase space Abstract: The architectures of extrasolar planetary systems often deviate considerably from the ``standard" model for planet formation, which is largely based on our own Solar System. In particular, gas giants on close orbits are not predicted by planet formation theory and so some process(es) are thought to move the planets closer to their host stars. Recent research has suggested that Hot Jupiter host stars display a different phase space compared to stars that do not host Hot Jupiters. This has been attributed to these stars forming in star-forming regions of high stellar density, where dynamical interactions with passing stars have perturbed the planets. We test this hypothesis by quantifying the phase space of planet-hosting stars in dynamical N-body simulations of star-forming regions. We find that stars that retain their planets have a higher phase space than non-hosts, regardless of their initial physical density. This is because an imprint of the kinematic substructure from the regions birth is retained, as these stars have experienced fewer and less disruptive encounters than stars whose planets have been liberated and become free-floating. However, host stars whose planets remain bound but have had their orbits significantly altered by dynamical encounters are also primarily found in high phase space regimes. We therefore corroborate other research in this area which has suggested the high phase space of Hot Jupiter host stars is not caused by dynamical encounters ... Continued on ES/IODE ➡️ https://etcse.fr/yap ------- If you find this interesting, feel free to follow, comment and share. We need your help to enhance our visibility, so that our platform continues to serve you.

Space'ibles Maps the Future: A New Horizon For Space and AI In an intriguing turn of events, French space agency, Centre National d'Etudes Spatiales (CNES) is seeking prospective work focussed on the future of space exploration. With a reputation for stellar foresight, Space'ibles, the space observatory division of CNES, is spearheading the project, having led the charge since 2017. The upcoming fourth act (2024-2025) introduces four fresh study themes. Each theme is intended to explore various dynamics of the space sector, from understanding its evolving topology to the potential for prospective systemic ruptures: 🚀"After New Space" focuses on examining the space sector's orientations and topology at a global and national level in France. It's a deep dive into the future of the major dynamics and potential systemic ruptures in the space sector. 🔭"Europe and Space Exploration" aims to explore the future of space exploration activities and Europe's role in this area. 👽"Sustainable Space," a theme that's gaining momentum, offers a reflection on space activities from a sustainability perspective. This includes the environmental footprint, security risks, budgetary cost, pressure on the space environment, and societal acceptance. 🌌Finally, "Space and Artificial Intelligence" peers into the potential of artificial intelligence for space activities. This theme will demystify the often sensationalised potential and fears surrounding AI's advancement. In a universe where France is often eclipsed by the likes of NASA and SpaceX, this endeavour by CNES and Space'ibles could just bring them into the limelight - no black holes included. Remember folks, it's one small step for man, one giant leap for procurement notices 🚀 🌍 How will Europe shape the future of space exploration? 🤖 Will the advancement of AI in space lead to more opportunities or challenges in the sector? #SpaceExploration #ArtificialIntelligence #PublicProcurement #Tender Click to see details on a tender that is “out of this world”: https://lnkd.in/eefean2Z

Space Budget 2024-25 In the interim #budget, Rs 13,042.72 Cr allocated to the Department of Space, a ~4% increase. 56% of this budget is dedicated to #Space Research and nearly 43% is for Capital Outlay of Space #Research. Rs 12,108 Cr is allocated for Schemes & Projects under - Space Tech, Space Applications, Space Sciences, INSAT Satellite Systems. Space Tech deals in Launch Vehicle Projects & Satellite Projects including Developmental and Operational Projects; Space Applications in National Natural Resources Management System, Earth Observation Applications, Mission Disaster Management Support; Space Sciences in Sensor Payload Development /Planetary Science Programme, Climate and Atmospheric Programme, Small Satellite for Atmospheric Studies and Astronomy, Space Science Promotion, Aditya-L1, Chandrayaan-III, X-Ray Polarimeter Mission and Space Docking Experiment Mission; and INSAT Satellite Systems is for expenses of various INSAT/GSAT class of Satellites including the expenses on service charges on leasing of transponders. #budget2024 #spaceindustry #applications #spacetechnology #satellite #earthobservation #spacelaunch #defence ISRO - Indian Space Research Organization ISpA- Indian Space Association Satcom Industry Association - India

"Why is a telescope needed in space?" 🔭 This question often crosses the minds of many; why invest in colossal infrastructures and mirrors sent to space when we can build them right here on Earth? To answer this, let's first explore why telescopes, in general, are indispensable. At the core, we are explorers, and telescopes act as our means to quench the thirst for exploration by peering into the infinite cosmos. They function by capturing different electromagnetic spectrums and analyzing the observed data to either affirm existing theories or unveil new ones. However, a significant hurdle arises due to the Earth's complex atmosphere. While it shields us, it also imposes two critical limitations on our cosmic view. Firstly, it obstructs a substantial portion of the spectrum, restricting us to a narrow band of wavelengths and thereby limiting our observations. Additionally, atmospheric layers introduce distortion, compromising the clarity of images. Earth-based telescopes contend with light pollution and satellite interference, further complicating observations. The logical solution? Propel telescopes beyond Earth's atmosphere 🚀 In space, they enjoy an unrestricted range of wavelengths enabling a more comprehensive study of the celestial phenomena. Free from diffraction and distortion, these telescopes deliver crystal-clear images. Being devoid of light pollution allows for them to capture the faintest and the farthest of light sources as well and isolation from all such unobstructed views leads to the telescope being capable of achieving remarkable resolution. The Hubble Space Telescope, for instance, has revolutionized our understanding of the cosmos by offering unparalleled views unattainable from terrestrial observatories. Now, why aren't there more of them? That's a topic for a subsequent post. Let's delve into the utilization of space telescopes and discuss the challenges and opportunities they present in the comments. #SpaceTelescopes #Exploration #Astronomy #SpaceResearch"

🚀✨ Save the date! On May 20th, 2024, join us in #Rome at Agenzia Spaziale Italiana space for an exciting event: Space Frontiers, co-organized by SEDS Italy and us. Here is the link where you can book your ticket in advance 👉  https://lnkd.in/dBXqbhKJ? ℹ️ This event, conducted entirely in English, aims to inform university students and Phd on the topic of Analog Missions and their potential and economic value. The seminar will provide participants with an in-depth overview of Analog Missions, delving into their functioning, objectives, applications, activities during missions, and procedures. Special attention will be given to the scientific value these missions bring to the field of space exploration. 🛰️ The event will feature various sessions, starting with a general introduction to contextualize the theme. Subsequently, four thematic areas crucial for project development will be addressed in detail through technical sessions: - Space Suit Technology - Innovation in Rovers and Instruments - Psychology and Human Factors - Biotechnology and Medicine Don't miss this opportunity to explore the frontiers of space exploration and deepen your understanding of Analog Missions. Stay tuned for more updates and registration details! #AnalogMissions #SpaceExploration #Italianspaceagency #agenziaspazialeitaliana #analogmission

FIRST INDIAN SATELLITE Aryabhata, India's inaugural venture into space, holds a prominent place in the nation's space exploration history. Named after the ancient Indian mathematician and astronomer Aryabhata, this satellite marked a pivotal moment for India in its journey toward mastering space technology. Launched on April 19, 1975, Aryabhata soared into space atop a Soviet Kosmos-3M launch vehicle from the Kapustin Yar launch site. The mission was a result of collaboration between the Indian Space Research Organisation (ISRO) and the Soviet Union, highlighting India's early efforts to harness international expertise in space endeavors. Weighing approximately 360 kilograms, Aryabhata was an experimental satellite designed for scientific research and technological advancements. Its primary objectives included studying the Earth's ionosphere and solar radiation, conducting aeronomy experiments, and testing satellite technology. Aryabhata orbited the Earth at an altitude ranging from 560 to 619 kilometers, providing valuable data for scientific analysis. The satellite was equipped with instruments for measuring X-rays, gamma rays, and electron densities in the ionosphere. Despite facing challenges, including a power system failure early in its mission, Aryabhata contributed significantly to India's understanding of space and laid the groundwork for future space exploration endeavors. Aryabhata's successful launch symbolized India's entry into the league of space-faring nations, demonstrating the country's capability to design, build, and launch satellites for scientific research. This achievement laid the foundation for India's ambitious space program, which has since evolved into a robust and independent space agency, ISRO, renowned for its technological prowess and numerous successful space missions. The legacy of Aryabhata endures in the annals of Indian space history, representing the nation's commitment to exploration, innovation, and the pursuit of knowledge beyond the confines of Earth's atmosphere.#snsinstitutions #snsdesignthinkers #designthinking

In the vast expanse of the universe, the James Webb Space Telescope (JWST) stands as a beacon of human ingenuity and technological prowess. As we continue to push the boundaries of what is possible, the JWST exemplifies the incredible synergy between technology and astronomy. Launched with the mission to explore the origins of our universe, the JWST is equipped with cutting-edge technology that allows it to peer deeper into space than ever before. Its advanced infrared capabilities enable it to capture images of celestial bodies and phenomena that were previously beyond our reach. This technological marvel is not just a testament to human curiosity but also a showcase of how far we've come in our quest to understand the cosmos. The JWST's ability to observe the formation of stars and galaxies, study the atmospheres of exoplanets, and even look back in time to the early universe is nothing short of revolutionary. These observations are made possible by the telescope's sophisticated instruments, which include the Near Infrared Camera (NIRCam), the Mid-Infrared Instrument (MIRI), and the Fine Guidance Sensor/Near InfraRed Imager and Slitless Spectrograph (FGS/NIRISS). What makes the JWST truly remarkable is the collaboration and innovation that went into its creation. Engineers, scientists, and researchers from around the globe contributed their expertise to bring this project to life. This international effort underscores the importance of collaboration in advancing our technological capabilities and expanding our understanding of the universe. As we continue to explore the cosmos, the JWST serves as a reminder of what we can achieve when we combine our technological advancements with a relentless curiosity about the world around us. The discoveries it will make in the coming years are sure to inspire future generations of scientists, engineers, and dreamers. #Astronomy #Technology #Innovation #JWST #SpaceExploration #Science #Engineering #Collaboration #Curiosity #FutureTech

It's a Terrible idea to send signals into space....? (Human Intelligence and Human Stupidity) In a Vast Universe Giving Human Information for a Enemy or Unknown Species and Expecting Positive responses with the Probability. War and Invasion for Survival with Lost Civilizations by a war or Specific Reason MESSAGE SENT INTO SPACE (AND WHAT WE'VE HEARD BACK) https://lnkd.in/gP54QDJQ. 1st Intentional Signal to Space sent by Arecibo The Arecibo Message On November 16th, 1974, the Arecibo Radio Telescope in Puerto Rico sent out the strongest signal ever sent into space. The broadcast's goal was to showcase humanity's technical advancement. Making of the Golden Record and what it Includes https://lnkd.in/gU8AievF The Benefits and harm of transmitting into Space  All radio-wavelength transmissions are broadcast into space. These include AM, FM, TV, and amateur radio signal transmission. https://lnkd.in/gksfkgaY SETI and METI Research The science known as SETI deals with searching for messages from aliens. METI deals with the creation and transmission of messages to aliens Physicist Stephen Hawking had a stark Warning to humanity before his death about the capabilities and threat of artificial intelligence. The Warning to Humanity https://lnkd.in/g-tv9hrg The Drake Equation  https://lnkd.in/gkibf2-8. DIMENSIONS: A Casebook of Alien Contact https://lnkd.in/gQZHiru3 Alien Races: All Alien Species https://lnkd.in/gNpFvrqc https://lnkd.in/gxN58DXK The US Navy's Secret Space Program and Nordic Extraterrestrial Alliance https://lnkd.in/gd4nFVRd The Galactic Federation  https://lnkd.in/gBFdavYE Antarctica's Secret Alien Cover-Up https://lnkd.in/gC7PeZaR John Lear https://lnkd.in/gNUk6RHy Nordic Alien's https://lnkd.in/gfUvyKrH The Pleiadian Promise https://shorturl.at/deyUZ Hybrids https://shorturl.at/bJY12 Telepathic Communication  https://lnkd.in/g-wmvQG Telepathy Is Real https://lnkd.in/g5EwBum Brain-to-brain communication ( India to France) https://lnkd.in/gHWu4NdB The CE-5 Protocol https://lnkd.in/gNGzwMMk The Absence of ET on Earth https://lnkd.in/gYi8Nu9g Dark Forest Hypothesis https://lnkd.in/grT3tNJt Senses https://lnkd.in/gja3aKZ9 Dimensions https://lnkd.in/gQNdMJt7 3D Refers to the three spatial dimensions of width, height and depth. The physical world and everything that is observed in it are three dimensional. The Human Brain in Depth https://lnkd.in/g9PZQFYB Cosmic Connection https://lnkd.in/gUUKn-4v Visual Perception https://lnkd.in/gi8Wa4MB https://lnkd.in/g8rSGHe9 How far can the human eye see https://lnkd.in/g9Nt64zD. A year when world saw ‘alien corpses’ and Stories https://lnkd.in/g58fzsuG Self-Replicating Spacecraft On the interstellar Von Neumann micro self-reproducing probes https://lnkd.in/gTb2Egw7 'If you want to find the secrets of the universe, Think in terms of energy, frequency and vibration.' -Nikola Tesla “For every Action, There is an equal and opposite Reaction.” -Isaac Newton