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15 Facts About James Webb, Mankind’s Largest Most Complex Space Telescope | Curiosmos

Posted in Black Hole, Earth, Evolution, Galaxy, Quantum Physics, Solar System, Space, Time, Universe on December 28, 2021| Leave a Comment »

By Vladislav Tchakarov

Twenty-five years after development began, the James Webb telescope is on its way to the second Lagrange point in the Sun-Earth System, where it will conduct the most advanced observations to date. It will study the processes that occurred in the early Universe, the evolution of galaxies from the Big Bang to the present, explore exoplanets and their atmospheres, and more.

Name and Budget

Initially, the telescope bore the short but difficult to pronounce name NGST (Next Generation Space Telescope). In honor of Webb, who ran NASA in the 60s of the last century, it was renamed in 2002. It was estimated that the total cost of NGST will be $ 500 million, and it will go into space in 2007.

However, in 2005, the project was seriously revised, as well as the estimate: the price increased nine times, to 4.5 billion, and the European and Canadian space agencies joined the development. The project has been repeatedly criticized for ineffective management, for underestimating the complexity and time costs.

Since 2010, the James Webb, which had risen in price, began to eat off the budgets of other NASA projects – for example, the WFIRST telescope – and received the nickname “telescope that ate astronomy” from the journal Nature. By 2021, its total value had grown to nearly $10 billion.

Completion and launch were postponed 14 times

At the same time, as more and more money disappeared in the womb of the project, the launch date was transferred and rescheduled – it was shifted as much as 14 times. The most resonant transfer occurred in 2018 – then the expert committee for the development and testing of the telescope revealed a whole bunch of problems.

For example, there were valves damaged by an incorrectly selected cleaning solvent, incorrect wiring, and poorly installed heat shield fasteners – some of them came off right during vibration tests. And, of course, in 2020, “Webb” was among hundreds of scientific projects, whose deadlines “went” due to the coronavirus pandemic.

Fortunately, in the end, all the problems of the space telescope were finally solved. The construction, which was attended by contractors from 20 countries, was completed in 2019 – after almost two more years the telescope passed all kinds of tests. In October 2021, the observatory was transported across the ocean to French Guiana at the European Kourou cosmodrome and began to prepare for the launch.

It is better than all ground-based telescopes

There are ground-based telescopes that can try to compete with “James Webb” in vigilance. VLT, Keck Observatory, GTC are already working, ELT and GMT are preparing to enter service.

However, even the most advanced adaptive optics systems are able to correct atmospheric interference only for small areas of the sky near the reference stars, which makes observations with a large field of view inferior in detail to space telescopes.

In addition, in the infrared range, ground-based telescopes are much inferior to space ones: water vapor in the atmosphere absorbs part of the radiation.

James Webb has a massive golden mirror

The main mirror of the observatory is a unique optical system. It is six times larger than that of the Hubble (its area is 27 square meters), and at the same time, it is lighter by almost a third – 625 kilograms against almost one ton. This is because beryllium was not used as the main material for mirrors in the past, but beryllium is a very light and durable material, which also has a lower coefficient of thermal expansion compared to glass.

Many parts of supersonic aircraft are made from beryllium alloys, and it has already been tested as a material for a mirror on the Spitzer and IRAS telescopes. The mirror blanks have been tested for resistance to micrometeoroid bombardment, which has shown that they are able to withstand them.

The preforms were obtained by pressing beryllium powder in stainless steel molds. They were then finalized, sanded, and polished. Then each of the mirrors was covered with a thin layer of gold by the method of vapor-phase deposition in a vacuum: the thickness of the gold coating is one hundred nanometers, and in total, the observatory took 48.25 grams of pure gold, which is comparable to the mass of a golf ball.

Gold was not chosen by chance – it better reflects infrared radiation and the long-wavelength part of optical radiation. The gold plating is coated with a thin layer of amorphous silicon dioxide to protect it from scratches. The main mirror was completed in 2016.

The mirror consists of 18 foldable segments

If the James Webb mirror was monolithic, then it simply would not fit under the launch vehicle fairing, so it was made segmented. It consists of 18 segments, each weighing 20 kilograms. The two side sections of the mirror, each of three segments, fold down to fit into the rocket.

The hexagonal shape of the segments makes it possible to obtain a mirror of an approximately round shape, 6.5 meters in diameter, without gaps (it was originally planned that the main mirror would be 8 meters long, but this idea was abandoned when the project was revised). The segments are controlled by 126 small motors.

There are four scientific instruments onboard

• NIRCam visible and near-infrared camera;
• NIRSpec visible and near-infrared spectrograph;
• MIRI mid-infrared instrument, including camera and spectrograph;
• the FGS-NIRISS instrument, which includes a precision telescope pointing sensor, a camera, and a slitless spectrograph.

NIRCam, NIRSpec, and FGS-NIRISS use cadmium telluride and mercury telluride detectors and will be cooled to 39 kelvin. MIRI uses arsenic-doped silicon detectors and will operate at 7 kelvin thanks to an optional helium cryocooler.

It will operate in the second Lagrange point in the Sun-Earth System

The halo orbit around the second Lagrange point in the Sun-Earth system, located 1.5 million kilometers from Earth, is an ideal place for a telescope, which must be cooled to low temperatures. In low-earth orbit, it would need huge reserves of coolant, but in a halo orbit, only a supply of helium for the MIRI instrument will be enough, and the rest of the systems will cool down by themselves – due to radiation.

In addition, near L2, the observatory will be able to hide with a heat shield from the Sun, Earth, and Moon at the same time. At the same time, James Webb requires relatively little fuel to stay in orbit.

When will James Webb begin operation?

In total, the flight to the second Lagrange point will take 29 days. During the first week of flight, the telescope will deploy all layers of the heat shield and extend a two-meter support tower that separates the optical system from the main body of the observatory. For the second week, the telescope will deploy the optical system so that it gradually begins to cool down to operating temperatures.

When James Webb arrives at his desk, it will begin a three-month optical alignment procedure. After that, it will take two months to calibrate the scientific instruments. And only six months after the launch, the telescope will receive the first full scientific data. So the first shots will have to wait.

James Webb has four main scientific tasks

• Find the first galaxies and stars formed after the Big Bang
• Determine how galaxies have evolved from their formation to the present
• Explore the formation of stars and planetary systems around them
• Study the physical and chemical properties of exoplanets and their atmospheres, including in terms of potential habitability

James Webb has a catalog of ‘first targets’

The list of the first targets contains 286 applications, which in total will take about six thousand hours of the observational time of the telescope. It includes already discovered exoplanets, discs around young stars, very distant galaxies, quasars and protoclusters, galaxies in the Local Universe, objects of the solar system such as comets, asteroids, trans-Neptunian objects, centaurs, and ice giants, as well as stars and nebulae of the Milky Way and its satellite galaxies.

The telescope will “look into the past”

Yes. Due to the finiteness of the speed of light, we can see the processes that took place in the Universe millions and billions of years ago, observing very distant objects. The observatory should consider the very first signs of star formation, which began 100-250 million years after the Big Bang, as well as the first stars and galaxies that existed in the era of Reionization, including quasars containing active supermassive black holes. Thus, it will be possible to test the evolutionary models of galaxies.

James Webb will begin a new era in Exoplanet exploration

The telescope will be able to directly register radiation from Jupiter-like exoplanets from the stars closest to us, as well as to detect exoplanets by the transit method (at the moment they intersect the disk of their stars). In this case, the sensitivity of the telescope will make it possible to determine even the approximate composition of their atmosphere from the transmission spectra.

In particular, the data from James Webb will be enough to understand whether there is water vapor, carbon dioxide, isoprene, and methane in the atmosphere of a particular exoplanet, which may indicate the possibility of life there.

The new telescope will also pay attention to the protoplanetary disks around young stars and the star-forming region. Thus, using Webb’s data, it will be possible to trace the formation of both stars and planets around them.

What about Solar System studies?

James Webb will observe all bodies in the solar system that are farther from the sun than the earth. These are comets, trans-Neptunian objects, dwarf planets, asteroids, as well as Mars, Jupiter, Saturn, Uranus, Neptune, and satellites of gas giants such as Enceladus or Europa.

James Webb will also help with studying dark matter

The observatory will observe gravitational lenses, which can be played by galaxies and galaxy clusters, which makes it possible to estimate their mass and the proportion of dark matter in them. In addition, James Webb will record very distant supernova explosions, which will make it possible to clarify the rate of expansion of the Universe at different times of its existence.

James Webb has a surprisingly short design life

The telescope should work for at least five and a half years, and 10 years after launch, its fuel reserves will come to an end, which means it will lose the ability to maintain a stable halo orbit around the Lagrange point.

What will happen to the telescope afterward has not yet been determined, but it can, for example, be put into a heliocentric orbit, where it will remain forever in a disabled state, as was the case with the Herschel infrared telescope. At the same time, astronomers hope that the technical condition of the Hubble will allow the two telescopes to work together for at least several years.

Other Sources:

 Jenner, L. (2021, March 29). NASA’s Webb Telescope General Observer Scientific Programs selected. NASA.
• Malik, T. (2021, December 27). James Webb Space Telescope successfully deploys Antenna. Space.com.
• Wolchover, N. (n.d.). The Webb Space Telescope Will Rewrite Cosmic History. If It Works. Quanta Magazine.

Source: Curiosmos

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An Ancient Black Hole as Heavy as a Billion Suns Is Pointed Right At Us | Vice

Posted in Black Hole, Earth, Evolution, Galaxy, Insights, Quantum Physics, Realizations, Solar System, Space, Time, Universe on March 9, 2020| Leave a Comment »

1583773870851-GettyImages-1205739129The blazar—powered by an extremely bright black hole that can blast a hole through galaxies—is the most ancient ever discovered, sending radio signals from the early universe

By Becky Ferreira

Scientists have discovered the oldest and most distant “blazar,” a supermassive black hole that spews out mind-boggling amounts of light, at the edge of space and time. The object is nearly 13 billion years old, but scientists were able to detect it because it is so “radio-loud,” meaning it is incredibly luminous even from afar.

A team led by Silvia Belladitta, a graduate student at the University of Insubria in Italy, announced the discovery of the blazar on Friday in the journal Astronomy & Astrophysics. Named PSO J030947.49+271757.3 (or PSO J0309+27 for short), it is the first known blazar at such a high “redshift,” which is a scale that measures the distance of luminous objects based on the distorted color of their light.

Blazars are a special class of active galactic nuclei (AGN), which are galactic centers defined by supermassive black holes that feed on large volumes of infalling gas, dust, and stars. As this material falls into the black hole, it becomes extremely hot and energetic, sparking the release of luminous jets of matter and radiation that travel close to the speed of light. This transformation into an AGN can create explosive beams that are forcefulenough to punch holes clear through galaxy clusters.

What separates blazars from regular AGN is their orientation toward Earth: In order to be considered a blazar, the jets from these objects have to be pointed directly at us. As a result, they are among the brightest objects in the sky, and can be used to estimate the overall population of similarly radiant AGN.

“Observing a blazar is extremely important,” said Belladitta in a statement. “For every discovered source of this type, we know that there must be 100 similar, but most are oriented differently, and are therefore too weak to be seen directly.”

Belladitta and her colleagues were able to spot PSO J0309+27 by combining data from several different observatories. First, the team examined bright radio sources captured by the NRAO’s Very Large Array (VLA) in New Mexico, the Panoramic Survey Telescope and Rapid Response System in Hawaii (Pan-STARRS), and a space telescope called the Wide-field Infrared Survey Explorer (WISE).

Those results revealed the existence of PSO J0309+27, but it took measurements by the Large Binocular Telescope (LBT) in Arizona to confirm that this object is by far the most distant and ancient blazar ever observed. Further examination of its emissions, sourced from NASA’s Swift space telescope, showed that it is also “the most powerful radio-loud AGN ever discovered” at this distance, according to the study.

“The spectrum that appeared before our eyes confirmed first that PSO J0309+27 is actually an AGN,” Belladitta explained. “In addition, the data obtained by LBT also confirmed that PSO J0309+27 is really far away from us, according to the shift of the color of its light toward red or redshift with a record value of 6.1, never measured before for a similar object.”

The combined observations enabled the team to estimate that the supermassive black hole at the heart of PSO J0309+27 is about a billion times more massive than the Sun. By comparison, the supermassive black hole at the center of the Milky Way is puny, at only four million times the mass of the Sun.

The discovery of PSO J0309+27 sheds literal light on the origins of supermassive black holes, which are now abundant throughout the universe and influential to its evolution. “Thanks to our discovery, we are able to say that in the first billion years of life of the universe, there existed a large number of very massive black holes emitting powerful relativistic jets,” Belladitta said.

“This result places tight constraints on the theoretical models that try to explain the origin of these huge black holes in our universe,” she added.

What’s more, the team predicted that other ancient blazars are likely to be discovered as a hyper-sensitive generation of telescopes comes online in the coming years, especially the Vera C. Rubin Observatory in Chile. These facilities will put the distant universe into sharper focus, enabling unprecedented insights about how we ended up with our modern cosmic surroundings.

Source: Vice

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Galaxies Millions of Light Years Apart Seem To Be Connected By Invisible “Large Scale Structures” | Collective Evolution

Posted in Brain, Consciousness, Galaxy, Quantum Physics, Reality, Solar System, Space, Universe on January 30, 2020| Leave a Comment »

galaxy

IN BRIEF

  • The Facts:A study published in The Astrophysical Journal in October found that hundreds of galaxies were rotating in sync with the motions of galaxies that were tens of millions of light years away. This suggests that an invisible force somehow connects them.
  • Reflect On:How much of what we know, and what we think we know, is false? Are our minds open to accepting new concepts of reality that don’t fit within the framework of accepted knowledge?

“We are all connected” — a statement that may evoke an eye-roll from someone you express this to. This is common when it comes to such topics, or any topic that dives into the ‘spooky’ world of quantum physics, which seems to be directly intertwined with philosophy and metaphysics in various ways. These subjects are going to really conflict with the belief systems of many, and that’s ok.

“There is nothing new to be discovered in physics now. All that remains is more and more precise measurement.” This statement was made by Lord Kelvin — a famous Scottish mathematician and physicist who contributed to many branches of physics — in 1900, and shattered only five years later when Einstein published his paper on special relativity. The new theories proposed by Einstein challenged the current framework of understanding, forcing the scientific community to open up to an alternative view of the true nature of our reality. This serves as a great example of how things that are originally taken as truth can suddenly turn out to be fiction.

This type of thing is happening quite often today, and with most of us trying to put food on the table and pay our bills, we don’t really have time to keep up with all that’s being discovered.

When it comes to the connection between all living systems, there are a number of examples one could use from many different fields of study. We see connection in all different forms, including all the way down to smallest bits of matter, the physical ‘stuff’ that our world is made up of. In quantum entanglement, for example, particles remain connected so that if you separate them, regardless of distance, whatever actions are performed on one of them affect the other. This has been seen with photons, for example.

This strange connection is not only seen at the smallest levels of the physical world, but also in large scale. This has been demonstrated by a new study published in the Astrophysical Journal  last October, which found that hundreds of galaxies were rotating in sync with the motions of galaxies that were tens of millions of light years away.

This is a new discovery and a new phenomenon that came from studying 445 galaxies within 400 million light years of our planet. The observed coherence is quite astonishing, and the authors hypothesize that it must have something to do with “large scale structures” that are perhaps connecting them, causing them to move so precisely in sync as they do, especially given the fact that the galaxies observed are separated by approximately 20 million light years. Somehow they “directly interact with each other,” said Joon Hyeop Lee, an astronomer at the Korea Astronomy and Space Science Institute.

The paper suggests that the synchronized galaxies are somehow embedded along the same ‘large scale structure,’ which is slowly rotating in a counter-clockwise direction and could be an explanation for the coherence seen between the rotation of these galaxies and their neighbours.

Obviously, a lot is still unknown.

“The dynamical coherence even out to millions of light-years was unexpected and surprising to us, because such distances are obviously too far for neighbor galaxies to directly interact with each other” says Joon Hyeop Lee, first author of the study, from KASI at Daejeon, Korea “Nevertheless, since the observational evidence supports the interaction origin of the dynamical coherence, we could not but think of the possibility that it is the vestige of past interactions.” (source)

These large structures are, as of now, invisible. Astronomers can’t identify what they are, but the discovery hints to the idea that the structures are made predominately of dark matter that links these galaxies in some sort of cosmic web, as galaxies and space in general seem to be dominated by dark matter.

This is where the world of non-material science comes in, as we start to bridge the gap that seems to separate science and metaphysics.

More is unknown than is known. We know how much dark energy there is because we know how it affects the universe’s expansion. Other than that, it is a complete mystery. But it is an important mystery. It turns out that roughly 68% of the universe is dark energy. Dark matter makes up about 27%. The rest – everything on Earth, everything ever observed with all of our instruments, all normal matter – adds up to less than 5% of the universe. Come to think of it, maybe it shouldn’t be called “normal” matter at all, since it is such a small fraction of the universe.

Non-material, invisible substances dominate our world — they are not perceivable to the senses, but they can be detected.

If you’ve looked into dark matter, you may also know that what scientists refer to as the quantum vacuum is often mistaken for dark matter or ‘dark energy,’ but we don’t hear about this in mainstream channels.

Space is actually not empty and it’s full of energy… The energy in space is not trivial, there’s a lot of it and we can actually calculate how much energy there is in that space and that reality might actually come out of it. Everything we see is actually emerging from this space. – Nasim Haramein

This idea was illustrated decades ago with the “Casimir Effect,” which demonstrates what’s called zero-point energy. Today, we are beginning to see that these concepts are not just theoretical, but instead are very practical. (source)(source) This is why it’s interesting to point out how multiple scientists, over the past little while, have been expressing the idea that what we call “Dark Matter” might actually be mistaken for this ‘zero-point energy.’

Take, for example, this Defense Intelligence Agency unclassified document entitled “Warp Drive, Dark Energy & The Manipulation of Extra-Dimensions,” written and prepared for the agency by senior research physicist Richard K. Obousky, Ph.D. and Eric W. Davis, Ph.D.

When it comes to dark energy, here’s what the paper states:

This is what now is being accepted as the ‘substance’ of space. Space is not empty–if you look at an atom, it’s mostly made up of ’empty space,’ but the space is not actually empty, it’s full of energy.

Nikola Tesla was well aware of this substance/force at the turn of the 20th Century:

All perceptible matter comes from a primary substance, or tenuity beyond conception, filling all space, the akasha, or luminiferous ether, which is acted upon by the life-giving Prana or creative force, calling into existence, in never-ending cycles all things and phenomena.” – Nikola Tesla, Man’s Greatest Achievement, 1907

The late Parahamsa Tewari recently had a paper published in Physics Essays. The paper is titled “Structural Relation Between The Vacuum Space and The Electron.” You can access the full study here. Tewari also points out that dark matter has been mistaken for the ether.

Ether has got to be, once again, established, then there will be the meaningful understanding of physics, meaningful understanding of metaphysics, and meaningful understanding of spiritual processes.” – Tewari (source)

I believe that there is something non-physical connecting these galaxies, connecting space and connecting time in ways that we are just beginning to understand, and I believe that what’s beyond this non-physical ‘substance’ is consciousness.

The Takeaway

Science still has a long way to go with regards to making discoveries about our universe, as there are many more questions than answers, but something seems to be a common theme, and that’s the fact that invisible forces like dark matter, dark energy, and the zero-point energy field are key components with regards to the structure and nature of reality.

What’s even more fascinating? The fact that consciousness itself may play an integral role in shaping how our physical world behaves. You cannot go into quantum physics without diving into consciousness. Max Planck, the theoretical physicist credited with originating quantum theory — a feat that won him the Physics Nobel Prize in 1918 — offers perhaps the best explanation for why understanding consciousness is so essential: “I regard consciousness as fundamental. I regard matter as derivative from consciousness. We cannot get behind consciousness. Everything that we talk about, everything that we regard as existing, postulates consciousness.”(source)

Perhaps the universe itself is conscious?

Source: Collective Evolution

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Can DMT Connect The Human Brain To A Parallel Universe? | Science, Spirit & Metaphysics

Posted in Consciousness, DMT, Entheogens, Galaxy, Quantum Physics, Reality, Realizations, Revelation, Solar System, Space, Universe on September 30, 2014| Leave a Comment »

QuantumJumpingDr. Rick Strassman in his book DMT: the Spirit Molecule, claims that DMT, which is one of the most powerful psychedelic drugs, can provide a reliable and regular access to the other planes of existence.  He claims that DMT may actually be a gateway to parallel universes.

In fact, these universes are always there and constantly transmit information. But we cannot perceive them because we are simply not designed for this: our ‘program’ keeps us tuned to the standard, mentally ‘normal’ channel.  We don’t have the sensory tools available to tune into to this information. Dr. Strassman beliefs that DMT allows us to tune into to other dimensions of existence that are already present right now.

What if DMT can lead us to parallel worlds? Theoretical physicists assume that the existence of parallel worlds is based on the phenomenon of interference, writes Strassman. One of the demonstrations of this phenomenon is what happens to the light beam when passing through a narrow hole in cardboard. Various rings and colorful edges that appear on the screen on which the light falls are not just the outlines of the cardboard. As a result of more complex experiments, the researchers concluded on the existence of “invisible” light particles that collide with those that we can see, refracting light in unexpected ways.

Parallel worlds interact with each other when the interference occurs. According to the theoretical hypothesis, there is an unimaginably huge number of parallel universes, or multiverses, each of which is similar to our own and is subject to the same laws of physics. This is the reason to the fact that it is not necessary that there is anything particularly strange or exotic about different multiverses. At the same time, they are parallel due to the particles that form them and that are located in different positions in each universe.

Strassman refers to the British scientist David Deutsch, a leading theorist in this area and author of The Fabric of Reality. He has corresponded with Deutsch discussing the likelihood that DMT can alter brain function so as to grant access or knowledge about parallel worlds and the physicist doubted this possibility because it would require quantum computingThis phenomenon, according to Deutsch, “could distribute components of a complex task among vast numbers of parallel universes, and then share the results. One of the conditions required for quantum computing is a temperature close to absolute zero.” That is why the physicist finds prolonged contact between universes in a biological system unlikely.

However, Strassman notes that since DMT is the key substance that changes the brain’s physical properties so that quantum computing may take place at body temperature, establishing contact with parallel universes could be possible.  In other words, DMT changes the physiology of the brain to such a degree that quantum computing is possible, thus giving us access to these parallel worlds.

This possibility confirms many of the stories reported by those who have used DMT.  They report that it is more than a mere hallucination or a “trip”, and often report going to other worlds and interacting with beings that inhabit these worlds.  With a theoretical hypothesis in place, we can now begin to give credence to the idea that users of DMT are in fact tapping into other parallel worlds.

Source: Learning Mind & Spirit Science and Metaphysics

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Scale of the Universe – Interactive Tool | Primax Studio

Posted in Consciousness, Space on October 1, 2011| Leave a Comment »

Source: www.primaxstudio.com/stuff/scale_of_universe

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