Sentences with phrase «other galactic»
Overcome or ally with other galactic civilizations with new interactions and be mindful of rebelling rogue AI and robots among your own kind.
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Plus, with him being found in space, Red Skull doesn't have to be relegated to Earth - bound stories, and could appear in future Guardians of the Galaxy films or other galactic entries in the MCU.
This region contains relatively young to intermediate - aged stars that within around five billion years old with relatively higher average metallicity than other galactic regions located outside of the galactic core, in a circular band that broadens with time.
Blue hook stars have been detected in very few other galactic globulars: Omega Centauri, NGC 6273, NGC 2808 and NGC 6388.
While current theories suggest that dark matter is constantly emitting gamma rays almost everywhere in the universe, isolating these signals from other galactic noises — such as gamma rays emitted from pulsars — is an insurmountable challenge.
Gilfanov says they are now working on characterizing the type Ia progenitors in other galactic types, such as the spiral cousins of our own Milky Way.
If the mission succeeds, astronauts could spend several years potentially being bombarded with cosmic rays — high - energy particles launched across space by supernovae and other galactic explosions.
Space - and ground - based telescopes further observed these hermit galaxies to tease out their shapes, rates of star formation and other galactic vital signs.
SETI astronomer Douglas Vakoch argued that the time has come to stop waiting for some other galactic civilization to establish contact with us and make the first gesture ourselves.
Not exact matches
Ever wonder if Kim Kardashian's authenticity and rise to galactic stardom had anything to do with each other?
Of one thing at least we can be confident: The other human species are no more, and there are probably no galactic visitors here, either.
The BICEP2 instrument can not distinguish the cosmic contribution from other sources directly, so, measurements of galactic dust collected by other sources, such as the Planck satellites were used.
Other effects, such as light scattering from cosmic dust and the synchrotron radiation generated by electrons moving around galactic magnetic fields within our own galaxy, can also produce these polarisation twists.
These weak emissions would also be intermixed with many other x-ray sources from the galactic center.
Many other potential applications of this dataset are explored in the series of papers, and they include studying the role of faint galaxies during cosmic reionisation (starting just 380,000 years after the Big Bang), galaxy merger rates when the Universe was young, galactic winds, star formation as well as mapping the motions of stars in the early Universe.
Among other sources of such radiation, scientists have proposed that interactions between bits of dark matter (which make up a large fraction of the universe's mass but haven't yet been directly detected) in a halo around the galactic center may be creating the surplus gamma rays.
By extension, all other similar galactic bulges may have formed the same way.
New research suggests that repeated exposure to galactic cosmic rays and other forms of radiation would be debilitating — astronauts could suffer brain damage or develop leukemia after reaching the Red Planet — and ultimately deadly.
The astronomers were surprised to find that the galactic motions they measured did not cancel each other out over the volume they studied.
«The process of generating galactic winds is something that requires exquisite resolution over a large volume to understand — much better resolution than other cosmological simulations that model populations of galaxies,» Robertson said.
In addition to the bright and chaotic features, each merging galaxy of NGC 5256 contains an active galactic nucleus, where gas and other debris are fed into a hungry supermassive black hole.
Although the origin of the gamma rays is still being investigated, their discovery suggests the flaring behaviour of Cygnus X-3 is an even better analogue to that of quasars and other types of flaring galaxies known as «active galactic nuclei» (AGN) than previously thought.
In a new paper in Scientific Reports, FSU Dean of the College of Human Sciences and Professor Michael Delp explains that the men who traveled into deep space as part of the lunar missions were exposed to levels of galactic cosmic radiation that have not been experienced by any other astronauts or cosmonauts.
These special classes of galaxy, so named for their extremely diffuse appearance, apparently produced far fewer stars than other galaxies or else were stripped of them long ago by galactic tidal forces.
«There's a general consensus that the very brightest active galactic nuclei are the result of major mergers,» he says, «but for the run - of - the - mill AGNs, other processes might be more important.»
These results suggest that quasars are not a good proxy for protoclusters and more importantly, mechanisms other than galactic mergers may be needed to explain quasar activity.
The results indicate that for the Milky Way and other spiral galaxies, the most dangerous regions are in the galactic centers, whereas the more diffuse spiral arms pose fewer hazards and are therefore more hospitable to life.
Aside from rogue stars, there are plenty of other things in the galactic neighborhood we can barely see that can be just as bad for our health.
In reality, it may also contain the largely unpolarized hazy glow from other galaxies, which has the effect of making the galactic microwaves coming from any particular point of the sky look less thoroughly polarized than they actually are.
To explain the current abundance of dark matter in the universe (as inferred from galactic observations and other data), the rate of annihilation, which governs how often WIMPs were produced in the early universe as well as how often they annihilate now, must fall within a narrow range.
Other cosmic phenomena such as supernovae in the Milky Way and colliding neutron stars in our galactic neighborhood should also produce detectable gravitational waves, each with their own accompanying revolutionary insights, but so far all three of LIGO's detections have been death - rattles from merging pairs of black holes in remote stretches of the universe.
Perhaps, after all, a relatively recent galactic merger is responsible for Andromeda's structure — and the structure of countless other galaxies — as well.
Ghez says other stars with infrared excesses exist near the galactic center.
Previous Planck analyses did not show the amount of dust polarization in that patch of sky or other high - galactic - latitude regions of the Milky Way because of the relative sparseness of dust and low signal compared to noise in these regions (see «Milky Way map skirts question of gravitational waves»).
Others think galactic shock waves that ripple through them keep the bulk of their gas from collapsing.
On their travels about the galactic centre, they are affected by the gravity of other clusters, as well as by large clouds of gas that they pass close to.
«The other hypervelocity velocity stars discovered so far are all at least consistent with coming from the galactic centre,» Portegies Zwart says.
High - energy particles called galactic cosmic rays could be an energy source for life on other planets.
In other words, astronomers can predict just what the galactic rotation curves will be from a given galaxy's stellar distribution.
Aliens could always find us in other ways besides transits, for example, with telescopes so big they could snap pictures of our planet from light - years away like galactic paparazzi.
Galaxies are far apart from each other, so even though galactic winds propagate at several hundred kilometers per second, this process occurred over several billion years.
This range is mostly free of interference from other radio sources, such as emission from electrons spiralling around galactic magnetic fields.
Prior to this discovery, researchers could not rule out other explanations for the 2.7 - million - solar - mass gravitational field at our galactic center.
There have been a number of mechanisms proposed for quenching, for example «feedback» from supernovae or active galactic nuclei which breaks up the star forming clouds and reduces the star formation rate, but the measurement and verification of yet other possible processes is of great importance.
Bullock and colleagues already attributed the dynamics of one galactic smash - up to a dark force keeping WIMPs closer to each other than expected.
While the great amount of dark matter expected at the galactic center should produce a strong signal, competition from many other gamma - ray sources complicates any case for a detection.
Similar chemical patterns may also be found in other galaxies, indicating a potential galactic universality of this dynamic process,» said co-author Allyson Sheffield of LaGuardia Community College / CUNY.
It has an orbit that takes the object so far away from the Sun (some 3000 times farther than Earth) that it is likely being influenced by forces of gravity from beyond our Solar System such as other stars and the galactic tide.
There are other explanations Alex, such as black holes in the center of the galaxy and our parabolic galactic orbit.
Science Interests Formation of galaxies and black holes in the early universe and their growth over cosmic time; large surveys with Hubble and other telescopes to discover new populations of distant galaxies and black holes; physical properties of active galactic nuclei using observations from radio, infrared, optical, ultraviolet through to X-ray energies.