Casa > notizia > Fiera Precedente  > Einstein wrong? Human discovery gravitational wave signal
notizia
China News
Notizie
Industria Notizie
Conoscenza del prodotto
Fiera Precedente
global news
Certificazioni
Contattaci
CINA TOPWIN INDUSTRY CO., LTD. è stata fondata nel 2002, in atteggiamento di "Studio per la nostra innovazione e il progresso. prodotti sono per la v... Contatta ora

notizia

Einstein wrong? Human discovery gravitational wave signal

chinatopwin chinatopwin 2017-07-13 09:51:33
A century ago, Einstein predicted that "ripples in space-time", namely the existence of gravitational waves.And after scientists claimed that the third time to detect gravitational waves, the scientific community appeared some controversy.
Scientists detected last year for the first time the dithering phenomenon of space and time, this is known as "the most significant scientific breakthrough of the century".Since then, researchers detected gravitational waves twice again.But after data released in February this year, other researchers has carried on the detailed review to the results of the detection, and said they found unexpected noise in the signal, "these correlations is very strange, should not have been there."
The research team by niels Bohr institute of Copenhagen physicist Andrew Jackson.At the beginning of this month, they published the findings.Laser interferometer gravitational-wave observatory (LIGO), the scientists measured the result of the interference of two beams, and detected by the disturbance of space and time.Gravitational wave is extremely weak, so the detecting precision of the LIGO observatory is extremely high, even if the target moving distance is only one over ten thousand the diameter of the proton, also can be detected.
In order to guarantee the accuracy of the results, LIGO observatory is divided into two, and only 3000 kilometers apart.They synchronous operation, to provide double check each other's observations.
Two detectors to detect the noise should be completely irrelevant, even if the storm happened near the a detector, nor in other detectors in the form of noise.The team detected the source of part of the "noise" include: "photons like raindrops hit the" hiss "from the light detector; seismic rumble and sea water impact the earth's crust, and the voice of the wind shaking buildings."If it is found that the gravitational waves, it should be almost at the same time produce similar in the two instrument signal.
While Jackson's team points out that in the gravitational wave signal is detected at the same time, seemed to produce some noise in the two detectors."Our concern is the main human detected the first gravitational wave signal, namely GW150914. We especially pay attention to the signals arrive at the Hanford and livingston, time interval between the two detectors."The team says."In our view, to determine the signal is indeed is a product of astrophysical events, rather than the happened to be related, LIGO observatory two detectors' residual 'time should be no correlation between records.
And our survey shows, both on the show strong correlation.We hope that other researchers can repeat our calculation process, and put forward their own opinions.In physics, the 'blind faith in obviously cannot replace' understanding."This cannot explain the correlation of could produce many consequences, small to modify extracted from signal waves, to deny the whole 'claims to have found gravitational waves.
LIGO observatory, a spokesman for the detection result may indeed exist in unexplained correlation, but should not affect the existing conclusions.Of the Max Planck institute for gravitational physics researchers, members of the LIGO scientific collaboration observatory will Ian harry argue openly, they claim that the team can't repeat calculated correlations exist, so their conclusions may be caused by the error code.
But both teams are not willing to admit he was wrong.It is understood that LIGO group said "we have had in-depth communication with each other, don't agree with their methods of investigation, more can't agree with their conclusion."On January 4, 2017, the LIGO scientific collaboration observatory will (LSC) for the third time to detect the existence of gravitational waves.Just like the first two, the gravitational waves are produced by the two colliding black holes, merge.Formed after the merger of black hole mass is about 49 times the size of the sun, just 62 times in the first and second among 21 times.
"We further confirmed that the quality of more than 20 times the sun of the existence of black holes. Before the LIGO detects them, we never know there are objects in the universe."Scientists at the Massachusetts institute of technology, Dr David schoemaker, a spokesman for the LIGO scientific collaboration will be pointed out that "these strange and extreme events in billions of years ago, we have billions of light-years away, but human beings can come up with a reasonable explanation, and verification, this extraordinary. LIGO and VIRGO (VIRGO gravitational wave detector) made tremendous contributions to the association of science."
Three LIGO observatory detected gravitational waves are produced by energy giant black hole mergers.Black holes collide, the resulting energy can be more than all the stars and galaxies in the universe radiate energy combined.
Recently detected a gravitational wave appears to be far from us, the black hole about 30 light years away from us.Scientists say the gravitational waves will open a door for our "new door", let us better observation of the universe, and get the knowledge related to mysterious objects such as black holes and neutron stars.Understanding of these astronomical phenomenon will help us to find out the origin of the universe.
"The discovery made us deeply in the form of new time and space, this would have been impossible before found that gravitational waves."The national science foundation director frans cordoba (France Cordova) points out, "this time, we have to look at 30 light-years away. LIGO observatory will continue to make great discoveries, gradually transition to the real gravitational wave observatory from experiments.
More important is, every time detection results not only let us witness the spectacle.Through collecting the data, we gradually understand the origin and features of these objects, so as to better understand the universe.We know that this is only the beginning.This' window of the universe will continue to expand.Hundreds of thousands of researchers from around the world converge to make its own contributions for LIGO observatory, further understanding of black hole mergers, neutron stars, and other astronomical phenomena.To this, we shall see."
When a pair of black hole revolve around each other, they can according to its own axis of rotation, like two figure skaters.Sometimes, when a pair of black hole while moving in orbit, will be moving in the same orbit direction, called "calibration" spin;Sometimes, they will rotate in the opposite direction.In addition, the black hole would tilt, deviated from the original orbital plane.
LIGO observatory according to the latest data, at least one black holes do not agree with the orbital motions of the overall situation.To determine the rotation of the black hole system, LIGO still need further observation.But from these early data, can be summed up the possible ways of the formation of black hole system.
Neutron stars are massive stars a supernova explosion and the product of the collapse of the kernel, in the process, the mutual fusion and form the protons and electrons neutrons.The researchers hope that improve the sensitivity of the LIGO equipment will help them find the location of the neutron star.They point out, if not enough understanding of the formation of a neutron star, it will be difficult to make important discoveries.

"In the third confirmed discovering gravitational waves produced by colliding black holes, LIGO observatory proved to the world, its performance is remarkable, can lead us to understand the dark side of the universe."LIGO, executive director of the laboratory, California institute of technology, David, pointed out that "although LIGO with special design, suitable for the observation of such astronomical event, but we hope in a few days can be observed in other astrophysical events, such as two neutron stars collided."