Scientists Develop New Approach to Capture Gravitational Wave Memory from Supernovae
A study published in Physical Review Letters explores a new approach to detecting the gravitational wave memory effect, a phenomenon predicted by Einstein’s general relativity. This effect refers to the permanent alteration in the distance between cosmic objects caused by a passing gravitational wave. Scientists suggest that existing gravitational wave observatories could capture this elusive signature, specifically from core-collapse supernovae (CCSN), which occur when massive stars over ten times the Sun’s mass collapse and explode.
Core-collapse supernovae generate gravitational waves with unique characteristics due to their changing quadrupole moments during collapse. According to reports, while the amplitude of these waves is lower compared to signals from black hole or neutron star mergers, they provide critical insights into stellar interiors. Unlike electromagnetic signals, which originate from a supernova’s surface, gravitational waves emerge from deep within, offering a rare glimpse into the dynamics of a collapsing star.
Challenges of Detecting Supernova Gravitational Waves
Detection of gravitational waves from CCSN has proven difficult due to their lower amplitudes, shorter durations, and complex signatures. Reports state that these waves fall below the sensitivity range of current high-frequency detectors such as advanced LIGO. However, the study indicates that low-frequency gravitational waves from CCSN exhibit a “memory” effect. This effect arises from anisotropic neutrino emissions and matter movement during collapse, leaving a non-zero gravitational disturbance.
As per reports, the research team, led by Colter J. Richardson from the University of Tennessee, analysed three-dimensional simulations of non-rotating CCSN with masses up to 25 solar masses using the CHIMERA model. Their findings revealed a distinct ramp-up in gravitational wave signals characteristic of memory with matched filtering techniques, the team concluded that signals from a 25 solar mass supernova could be detected up to 10 kiloparsecs away, a range accessible by existing observatories.
Potential for Future Research
Richardson highlighted, as per sources, the significance of exploring low-frequency gravitational waves and encouraged further investigations using the study’s methodology. Future research may focus on common merger events or improvements in detector sensitivity to refine the detection of memory signals.
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Science
CERN’s LHCb Detects First CP Violation in Baryons, Shedding Light on Matter–Antimatter Puzzle
The researchers used the LHCb detector at the Large Hadron Collider in CERN for the first time, and found that charge parity (CP) violation in baryons, including particles like neutrons and protons that make up most of the universe’s visible matter. CP violation describes that nature treats antiparticles and particles slightly differently. This was seen in mesons only, the particles which are composed of a pair of quark-antiquark; further, it is important to explain that the universe is comprised of matter and not antimatter.
LHCb Detects 2.45% Asymmetry in Beauty–Lambda Baryon Decay
As per Live Science, this discovery is focused on the beauty-lambda baryon to a proton, two pions and a kaon. From 2009 to 2018, the data was analysed, which amounts to millions of decays and the counterparts of the antiparticle. However, they found a 2.45% asymmetry, which confirms the CP violation in baryons. The study was published in the journal Nature. This confirms the Standard Model prediction and leads to new physics.
CP violation was known in the 960s, first in kaons, then in the beauty mesons during 2001 and later in charm mesons during 2019. Baryons are made of three quarks, and remain enigmatic still. This CP violation directly tests the phenomenon’s universality with different types of particles and adds an important piece to the asymmetric antimatter mystery.
Breakthrough Offers New Clues to Matter–Antimatter Imbalance
However, the difference of 2.45% is not enough to determine the dominance of matter. We need to know the CP violation in baryons, which provides a promising and fresh direction in the search for physics. Scientists even found local asymmetry in decay channels specifically. This signals a rich substructure of deeper theory and exploration.
This research underscored CERN’s strength to probe basic symmetries at never-before-known precisions. Further, for 2030, the upgrades are scheduled, and there are large sets of data to be analysed with even more precise CP violation. This unlocks the new aspects of the universe and historical physics.
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NASA/ESA’s Hubble Space Telescope has released a striking new picture of the large galaxy cluster Abell 209, 2.8 billion light-years from us in the Cetus constellation. The enormous cluster contains over 100 galaxies held together by gravity, but what is seen is only half the tale. Underneath the shining galaxies is a tangled web of unseen scaffolding—hot, diffuse gas and a vast amount of dark matter. Although invisible, these elements define the universe through their gravitational pull. The strong lenses of Hubble enable scientists to study these invisible elements and the twisted spacetime that they create.
Technological advancement
According to NASA website, the new image was taken with Hubble’s Advanced Camera for Surveys (ACS) and Wide Field Camera 3 (WFC3). Twelve exposures taken through different color filters were combined to make the full view. The final picture has a golden glow from dozens of bright elliptical galaxies clustering at the center, along with a few blue spiral galaxies at the edges. , Hubble avoids Earth’s blur to make distant galaxies appear pinpoint-sharp . In visible light, the largest galaxies appear as smooth golden orbs, while the spiral galaxies shine a faint blue. Hubble demonstrates a technological brilliance by merging optical and infrared data into one striking cosmic portrait.
Scientific revealations
Hubble scientists say images like this can help answer fundamental questions about dark matter and dark energy. The space between Abell 209’s galaxies is laced with X-ray–hot gas and dominated by dark matter. Only about 5% of the cosmos is ordinary matter; roughly 25% is dark matter and 70% is dark energy.
A massive cluster acts like a natural lens: its gravity slightly warps the light from more distant galaxies. In the Hubble image, a few faint background galaxies appear stretched into curved streaks. By measuring these distortions, scientists can map the cluster’s total mass (including dark matter). This lets them test theories about how the universe has grown under the influence of dark matter and dark energy
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