Time for another #FridayFun fact... What do Wi-Fi and black holes have in common? 🕳️🛜 Well, the first Wi-Fi standard was invented by accident! In the 1990s, Australian radio astronomer Dr. John O’Sullivan and his team were trying to detect exploding 💣 black ⚫ holes using radio waves. While they didn’t succeed in finding black holes, their research led to the development of the technology that became the foundation of Wi-Fi. #WiFi #WirelessNetworks
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The CRAFT coherent (CRACO) upgrade I: System description and results of the 110-ms radio transient pilot survey Cambridge University Press https://lnkd.in/g6KbdcUy
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January 17, 1996 Paul Butler and Geoffrey Marcy announced to the American Astronomical Society that they had discovered two new planets using an unconventional computer technique to analyze the movement of stars. Since that time, thanks in part to their use of computer technology, Butler and Marcy have become known as “the world’s most successful… https://lnkd.in/dMT6QXP
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Astronomers pinned down the origins of at least one fast radio burst, a brief and brilliant explosion of radio waves emitted by an extremely compact object. The team's novel technique might also reveal the sources of other FRBs. https://lnkd.in/dk_2P5cA
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Astronomers have detected fast-repeating radio bursts from a distant "dead" galaxy that should not contain the energy to produce these types of signals, according to new research. Read more: https://lnkd.in/eXk6m_sP
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2nd Generational Heir to Nikola Tesla, 1st to Drazen, World's leading authority on CTP Energy Science, C-domain Communication™, CTP (anti)gravitic & FTL propulsion. Architect of the Nth Industrial Revolution™
EVERYTHING observable in our physical universe is 'there' because T-energy 'coded' it into the C-energy Frequency Range (CeFR) that defines our P-universe's C-range. (https://lnkd.in/ev5RSAwU) #newscience #postquantum #CTPSci
Why Search for Astronomical Anomalies? | Beatriz Villarroel
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#space #aerospace #astronautics #astronautics4xploit #a4xaerospace https://lnkd.in/ehrPnb23 Quantum teleportation, a technique for transferring the state of a qubit in one quantum system to a qubit in a distant quantum system, involves the creation of an entangled quantum state and the sharing of its two parts between the source and destination location. In 1993, C. H. Bennett and his co-authors published a paper titled “Teleporting an Unknown Quantum State via Dual Classical and Einstein-Podolsky-Rosen Channels”. This paper is one of the first and earliest papers to investigate the quantum teleportation phenomenon. In the Bennett et al paper, dual communication methods of sending and receiving quantum information were described. In 1997, the idea was experimentally demonstrated by Sandu Popescu and Anton Zeilinger. Since then, the concept has been evolving. Some of the potential applications of quantum teleportation are Space-based quantum networks, Quantum cryptography, Quantum sensing and metrology, Quantum computing, etc. Quantum teleportation has the potential to enable the development of quantum algorithms that can solve complex problems faster than conventional computers. In this video, Astronautics4Xploit presents "Applications of Quantum Teleportation: Propellants of 21st Century Hacking-Resistant Communication". The focus points are Quantum Teleportation Process and Real-World Applications of Quantum Teleportation. For more information, contact Astronautics4Xploit at: Website: https://lnkd.in/gpeiAGS YouTube: https://lnkd.in/gKnRqiz Facebook: https://lnkd.in/getxfPK Instagram: https://lnkd.in/gsKpFG7 LinkedIn: https://lnkd.in/gsY8pYN Please, remember to SUBSCRIBE to our channel. Thanks.
Applications of Quantum Teleportation: Propellants of 21st Century Hacking-Resistant Communication
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Check out our latest JWST imaging paper from the ``Dust in the Wind’’ Cycle 1 JWST programme: https://lnkd.in/eMymusRe Zooming onto the heart of the local Seyfert ESO 428-G14, we detect clear extended and polar MIR emission. Our study shows that images taken with broad-band JWST filters can be contaminated by strong emission lines, attributing structure to dust that may in reality be gas driven. After correcting for contamination, we find that the dust is more compact, with a good spatial correspondence with the radio jet. This dust however still exceeds the traditional limits of the torus. We explore possible origins for the extended polar dust and find that local shock heating of dust may be an important process.
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Exploring galaxies, making science for everyone, and inspiring people to fulfil their ambitions (and have fun doing it).
Check out these beautiful #JWST data and analysis from Houda Haidar! Zooming in to the hust heart of galaxies.
Check out our latest JWST imaging paper from the ``Dust in the Wind’’ Cycle 1 JWST programme: https://lnkd.in/eMymusRe Zooming onto the heart of the local Seyfert ESO 428-G14, we detect clear extended and polar MIR emission. Our study shows that images taken with broad-band JWST filters can be contaminated by strong emission lines, attributing structure to dust that may in reality be gas driven. After correcting for contamination, we find that the dust is more compact, with a good spatial correspondence with the radio jet. This dust however still exceeds the traditional limits of the torus. We explore possible origins for the extended polar dust and find that local shock heating of dust may be an important process.
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Five new ways to catch gravitational waves — and the secrets they’ll reveal Observatories, experiments and techniques are being developed to spot ripples in space-time at frequencies that currently can’t be detected. https://lnkd.in/gqx-KCrR
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media.nature.com
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My latest: in the future, we will still use LIGO-type observatories to detect gravitational waves. But a number of other techniques will do it too — and will vastly expand the spectrum of waves we can discover https://lnkd.in/eUEj92sz
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