Scientists detect 13 billion-year old signal from ‘Cosmic Dawn' using Earth-based telescopes

In what can be called a truly unique accomplishment, scientists seem to have detected a 13 billion-year-old signal using Earth-based telescopes. This feat allow them to see how the first stars impacted light emitted from the Big Bang. Astrophysicists measured polarised microwave light to create a clearer picture of what is known as Cosmic Dawn. They traced this by using telescopes high in the Andes mountains of northern Chile. Cosmic Dawn refers to the period roughly between 50 million to one billion years after the Big Bang, a time when the first stars, black holes, and galaxies were reportedly formed.
The research led by Tobias Marriage, professor of physics and astronomy at Johns Hopkins University (JHU), is the first time ground-based observations have captured signals from the Cosmic Dawn. 'People thought this couldn't be done from the ground. Astronomy is a technology-limited field, and microwave signals from the Cosmic Dawn are famously difficult to measure,' Marriage was quoted as saying by the JHU website. 'Ground-based observations face additional challenges compared to space. Overcoming those obstacles makes this measurement a significant achievement,' he added.
According to the official JHU website, cosmic microwaves are barely millimetres in wavelength and are very hard to detect. The signal from polarised microwave light is about a million times fainter, making it much more difficult to trace. Meanwhile, on Earth, broadcast radio waves, radar and satellites can drown their signal, and changes in the atmosphere, weather and even temperature can distort it. The researchers claimed that even under perfect conditions, measuring this type of microwave would need highly sensitive equipment.
Scientists from the US National Science Foundation's Cosmology Larger Angular Scale Surveyor, or CLASS project, used telescopes that have been specifically designed to detect traces left by the first stars in the relic big bang light. This was previously only accomplished by technology deployed in space, such as the US National Aerospace and Space Administration Wilkinson Microwave Anisotropy Probe (WMAP) and European Space Agency Planck space telescopes.
As part of the project, the researchers compared the CLASS telescope data with data from the Planck and WMAP missions. They identified interference and narrowed in on a common signal from the polarised microwave light. Polarisation is when light waves collide into something and scatter.
'When light hits the hood of your car and you see a glare, that's polarisation. To see clearly, you can put on polarised glasses to take away glare,' said author Yunyang Li, who was a PhD student at Johns Hopkins and then a fellow at the University of Chicago during the research. 'Using the new common signal, we can determine how much of what we're seeing is cosmic glare from light bouncing off the hood of the cosmic dawn, so to speak.'

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Time of India

2 days ago

• Time of India

Are we living inside a black hole? NASA's James Webb findings stun scientists

A latest discovery by NASA 's James Webb Space Telescope has reignited one of the most astonishing theories in modern physics: the possibility that our entire universe exists inside a giant black hole. After closely analysing hundreds of ancient galaxies, researchers observed something deeply puzzling. A majority of them appear to spin in the same direction, which contradicts long-standing beliefs about the universe's early formation. This unusual finding is forcing scientists to question the very structure and origin of the cosmos. It could reshape our understanding of space, time, and reality itself. While more evidence is needed, the idea that our universe could exist inside a black hole is no longer confined to science fiction. James Webb Telescope observes rotating galaxies hinting black hole theories Using its incredibly sensitive instruments, the James Webb Space Telescope studied 263 ancient galaxies, some dating back to just 300 million years after the Big Bang . These galaxies are among the oldest and farthest we have ever observed. Surprisingly, about 60% of them appear to rotate in the same direction, mostly clockwise. This finding contradicts the previously accepted belief that galaxy spin directions should be random, especially across such vast stretches of space. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Das entspannendste Farmspiel. Keine Installation Taonga Jetzt spielen Undo Galaxy spin pattern challenges chaos theory, hints at hidden order In the standard model of the universe, galaxies are thought to have formed from chaotic matter distributed randomly after the Big Bang. So their spin directions, clockwise or counter-clockwise, should also be random. But the James Webb findings suggest otherwise. If a large number of galaxies are rotating in a coordinated way, it hints at some sort of underlying order or force that influenced them early in the universe's history. This unexpected uniformity has led scientists to revisit some radical ideas, including one that proposes we might be living inside a black hole. What does it mean to live inside a black hole This idea might sound like science fiction, but it is based on real physics. A black hole is a region of space where gravity is so strong that nothing, not even light, can escape. At its core is a point called a singularity, surrounded by a boundary called the event horizon. Some physicists propose that if a massive star collapsed in a certain way, it could create a black hole that forms an entirely new, enclosed space, possibly a whole universe. In this theory, our own universe could be what is inside the event horizon of a much larger black hole that exists in another "parent" universe. Why are scientists taking this seriously now The synchronised spinning of galaxies seen by James Webb hints at large-scale patterns or forces that are hard to explain with current models. If the early universe was influenced by the properties of a black hole, such as its rotation or shape, it might explain why so many galaxies today still spin the same way. The idea of a universe inside a black hole also helps solve other puzzles, like why the universe appears so uniform and why space-time seems to behave the way it does. What are the limitations of this theory Of course, not everyone is convinced. Some experts suggest that what we are seeing could be due to observational bias. In other words, how we interpret distant light might be skewed by effects like the Doppler shift or the limits of our telescopes. The researchers themselves admit that more data and deeper analysis are needed before drawing firm conclusions. But even if the "black hole universe" idea turns out to be wrong, this discovery still opens exciting new doors in our understanding of space. What can be happen next Scientists will continue to observe more galaxies across various regions of the sky to see if the pattern holds. If similar spin alignments are found elsewhere, it could point to a universal force or condition that existed in the very earliest moments after the Big Bang. Theorists are revisiting their models, trying to fit this new piece into the cosmic puzzle. At first glance, these kinds of discoveries might seem abstract, far removed from everyday life. But they get to the heart of a deeper question: What is the universe, really? And how did we get here? By exploring ideas like a "black hole universe," we are not just studying space. We are learning about our own cosmic origins, our place in the grand scheme of things, and perhaps even what lies beyond.

Time of India

2 days ago

• Time of India

Cancer could be detected 3 years before symptoms appear with a simple blood test; new study reveals

One of the leading causes of death in recent years, cancer, is claiming to take millions of lives each year. Despite the significant advancements in the treatment, the biggest challenge in fighting cancer is that the detection is often too late. Detecting cancer earlier may dramatically improve survival rates and offer more treatment options. But, this is yet harder to diagnose at the earliest stage and is one of the crucial reasons for rising deaths worldwide. Now, a new study by Johns Hopkins University researchers suggests that a simple blood test could help identify cancer years before symptoms even begin to show, potentially transforming the future of early diagnosis and prevention. According to the study published in the peer-reviewed journal Cancer Discovery , this breakthrough might be a push in early diagnosis of cancer. A simple blood test may detect cancer early, before any symptoms start Cancer outcomes are heavily dependent on how early the disease is detected. When tumours are caught in their initial stages, they tend to be smaller, less aggressive, and more responsive to treatment. As researcher Yuxuan Wang from Johns Hopkins explains, 'Three years earlier provides time for intervention. The tumours are likely to be much less advanced and more likely to be curable.' This time advantage could make the difference between curable and life-threatening cancer, especially in aggressive forms of the disease. At the heart of the research is a type of genetic material called circulating tumour DNA (ctDNA). Tumours naturally shed fragments of their DNA into the bloodstream, but these traces are extremely minute and hard to detect, especially in the early stages. Science behind detecting cancer in blood To identify these fragments, scientists used multi-step algorithms and cross-checks to scan blood samples for modifications in DNA patterns that are commonly linked to tumours. The technique forms the basis of a Multi-Cancer Early Detection (MCED) test, designed to look for cancer-specific genetic changes in the blood. The research team analysed blood samples from 52 individuals, split into two groups: 26 people who were later diagnosed with cancer within six months of sample collection. 26 people who remained cancer-free. When subjected to the MCED test , eight cancer cases were flagged, indicating a 31% detection rate. While not perfect, this detection occurred before any formal diagnosis or visible symptoms appeared. Testing the method: What the study revealed What makes the findings even more groundbreaking is the analysis of older blood samples from some of the participants. Six of the eight individuals who were detected by the MCED test had blood samples available from 3.1 to 3.5 years before their diagnosis. Amazingly, cancer signals were found in four of those six samples. The ctDNA was present, although at levels up to 80 times lower than what the current test threshold requires. This suggests that tumours begin shedding DNA into the blood long before symptoms arise. if the tests are sensitive enough, these early signs could be caught. While the results are promising, they also highlight a key hurdle that the current technology needs to improve its sensitivity. The earlier the stage of cancer, the lower the ctDNA levels, making detection difficult. 'This study shows the promise of MCED tests in detecting cancers very early,' says Dr. Bert Vogelstein, a senior cancer researcher involved in the project. 'But it also sets the benchmark sensitivities required for these tests to succeed.' In simpler terms, we now know what we should aim for—but we're not quite there yet. What happens after a positive cancer blood test Even though the science is encouraging, moving from lab to the clinic is not straightforward. Blood-based cancer screening tests must undergo rigorous clinical trials to prove their reliability and safety. Once proven effective, they still require regulatory approvals before being adopted into regular medical practice. There's also the question of what comes after a positive test. Dr. Nickolas Papadopoulos from the Ludwig Centre notes, 'We need to determine the appropriate clinical follow-up after a positive test result. That includes further scans, biopsies, or even preventive treatments.' Despite the current limitations, this research represents a hopeful shift in cancer diagnostics. Combined with ongoing advances in treatment, especially therapies targeting multiple cancer types, the future holds the potential for significantly improved survival rates. This could mark a revolutionary step forward in how cancer is screened and treated. Also Read | 10 common monsoon diseases that might cause serious health problems; know symptoms and how to protect yourself One step to a healthier you—join Times Health+ Yoga and feel the change

First Post

3 days ago

• First Post

How new blood test could reveal cancer long before symptoms appear

Scientists at Johns Hopkins University in the US have developed a new blood test that can detect signs of cancer up to three years before symptoms appear. When cancer is present, tumours release small fragments of genetic material into the bloodstream. Researchers found that these fragments can be identified in blood samples long before symptoms emerge. This could allow doctors to detect cancer much earlier than current screening methods, improving the chances of timely treatment read more This could let doctors find cancer much earlier than current screening methods. Pixabay/Representational Image Has a new way to detect cancer early been found? Scientists at Johns Hopkins University in the US have created a new blood test that can pick up signs of cancer up to three years before any symptoms appear. Why is this important? This could let doctors find cancer much earlier than current screening methods, giving people a better chance of getting treated in time. ALSO READ | British tourist dies after being 'scratched' by a pup in Morocco: How common are rabies deaths today? STORY CONTINUES BELOW THIS AD The study was published in Cancer Discovery and carried out by teams from different Johns Hopkins centres. It was partly supported by the US National Institutes of Health. So, what is this new test? And what did the researchers discover from the study? Let's take a look: What the researchers found The study showed that small traces of cancer can be found in a person's blood as early as three years before they are formally diagnosed. This raises the possibility that doctors could one day spot cancer much sooner, when it is easier to treat or even cure. When someone has cancer, tumours release tiny fragments of genetic material into the bloodstream. The researchers found that this material can be detected in blood samples well before any symptoms show up. The study was carried out by teams from different Johns Hopkins centres. Pixabay/Representational Image Dr Yuxuan Wang, one of the study's authors, said, 'We were surprised to find cancer signals in the blood so early. Finding cancer three years earlier gives us a chance to treat it before it spreads.' To conduct the research, scientists used plasma samples from a major Atherosclerosis Risk in Communities (ARIC) study, which looks at risk factors linked to heart attacks, strokes, heart failure and other heart-related conditions, according to a press release. They examined blood from 26 people who were diagnosed with cancer within six months of giving the sample, and compared it with samples from 26 people who were not diagnosed with cancer. STORY CONTINUES BELOW THIS AD Out of the 52 people, eight tested positive using a multi-cancer early detection (MCED) lab test and were later diagnosed with cancer within four months of their blood being drawn. Notably, MCED tests are an experimental method of screening that checks for signs of several types of cancer at the same time. According to the American Cancer Society, these tests can look for pieces of DNA, RNA or proteins from abnormal cells. In six of the eight cancer cases, the researchers went back to check earlier blood samples, taken more than three years before diagnosis. In four of those cases, cancer markers were already present. What do the results mean? Dr Bert Vogelstein, senior author and professor of oncology at Johns Hopkins, said, 'This study shows the promise of MCED tests in detecting cancers very early, and sets the benchmark sensitivities required for their success.' Dr Nickolas Papadopoulos, also a senior author and professor of oncology, added, 'Detecting cancers years before their clinical diagnosis could help provide management with a more favourable outcome. Of course, we need to determine the appropriate clinical follow-up after a positive test for such cancers.' At present, no MCED test has received full approval from the US Food and Drug Administration (FDA) for general use. However, some are available commercially under more flexible rules as Laboratory Developed Tests. STORY CONTINUES BELOW THIS AD MCED tests are an experimental method of screening that checks for signs of several types of cancer at the same time. Pixabay/Representational Image Experts say MCED tests are not meant to replace current screening methods but could become useful tools for detecting cancers earlier, particularly those like colon cancer, which are often diagnosed at later stages. Of the eight participants whose cancers were picked up by the MCED test months before diagnosis, five later died from the disease. According to The New York Post, excluding non-melanoma skin cancers, more than two million new cancer cases are expected in the US in 2025, with over 618,000 people projected to die from the illness. That means nearly 1,700 deaths every day.