Scientists just recreated the universe's first ever molecules — and the results challenge our understanding of the early cosmos
For the first time, researchers have recreated the universe's first ever molecules by mimicking the conditions of the early universe.
The findings shake up our understanding of the origin of stars in the early universe and "calls for a reassessment of the helium chemistry in the early universe," the researchers wrote in the new study, published July 24 in the journal Astronomy and Astrophysics.
The first stars in the universe
Just after the Big Bang 13.8 billion years ago, the universe was subject to extremely high temperatures. A few seconds later, though, temperatures decreased enough for hydrogen and helium to form as the first ever elements. Hundreds of thousands of years after those elements formed, temperatures became cool enough for their atoms to combine with electrons in a variety of different configurations, forging molecules.
According to the researchers, a helium hydride ion — or HeH+ — became the first ever molecule. The ion is needed to form molecular hydrogen, now the most abundant molecule in the universe.
Both helium hydride ions and molecular hydrogen were critical to the development of the first stars hundreds of millions of years later, the researchers said.
For a protostar to begin fusion — the process that enables stars to create their own energy — atoms and molecules within it must collide with each other and release heat. This process is largely ineffective at temperatures under 18,000 degrees Fahrenheit (10,000 degrees Celsius).
Related: Universe's First Molecule Detected in Space for the First Time Ever
However, helium hydride ions are particularly good at continuing the process, even under cool temperatures, and are considered to be a potentially integral factor of star formation in the early universe.
The amount of helium hydride ions in the universe may therefore have had significant bearing on the speed and efficacy of early star formation, the researchers said in a statement.
Far more important than previously assumed
In the new study, the researchers recreated early helium hydride reactions by storing the ions at minus 449 degrees Fahrenheit (minus 267 degrees Celsius) for up to 60 seconds to cool them down before forcing them to collide with heavy hydrogen. Researchers studied how the collisions — similar to those that kickstart fusion in a star — changed depending on the temperature of the particles.
They found that reaction rates between these particles do not slow down at lower temperatures, which contradicts older assumptions.
RELATED STORIES
—2 stars covered in unusual elements have a puzzling origin story
—'Immortal' stars at the Milky Way's center may have found an endless energy source, study suggests
—The Milky Way's 'thick disk' is 2 billion years older than scientists thought
"Previous theories predicted a significant decrease in the reaction probability at low temperatures, but we were unable to verify this in either the experiment or new theoretical calculations," study co-author Holger Kreckel, who studies nuclear physics at the Max Planck Institute for Nuclear Physics in Germany, said in the statement.
This new finding of how helium hydride ions function challenges how physicists think stars formed in the early universe. Reactions between the ions and other atoms "appear to have been far more important for chemistry in the early universe than previously assumed," Kreckel said.
Periodic table of elements quiz: How many elements can you name in 10 minutes?
Solve the daily Crossword
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
6 minutes ago
- Yahoo
More than 400 indirect deaths linked to LA wildfires, study suggests
More than 400 additional deaths are estimated to be linked to the wildfires that ravaged Los Angeles earlier this year, according to a new study. The figure, published on Wednesday in the medical journal JAMA, looks at deaths that have been attributed to factors caused by the wildfires, like poor air quality and delays in accessing healthcare. It is a higher figure than the official death count of 31 by the Los Angeles County, which tallied deaths caused directly by the fires. The study comes as hundreds of wildfires burn across the US and Canada, prompting air quality advisories in cities like Chicago, Buffalo and New York. The Palisades and Eaton fires tore through Los Angeles in January, destroying thousands of structures and leading to the evacuation of more than 100,000 Los Angeles residents. Why wildfires are becoming faster and more furious The far-reaching impacts of wildfire smoke – and how to protect yourself The latest study revealed that around 440 people are estimated to have died as a result of the wildfires between 5 January and 1 February. Researchers said they tallied the figure by looking at all deaths and their causes in Los Angeles during the period of the fires, and comparing it to similar data from previous years. The results show that there were nearly 7% more deaths during the wildfires. Some are attributed to lung and heart conditions exacerbated by smoke or stress, while others are more indirect - like delayed healthcare treatment for dialysis or cancer patients as a result of fire-related disruptions. The authors said that the findings underscore the need for officials to count both direct and indirect fatalities of wildfires and other climate-related emergencies when trying to quantify their impact. "They also highlight the need for improved mortality surveillance during and after wildfire emergencies," the authors said, noting that their figures are provisional as there may have been additional fire-related deaths beyond the scope of the study. The BBC has reached out to Los Angeles County officials for comment on the study's findings. Another study released on Wednesday in JAMA that looked at the aftermath of the 2023 Maui wildfires showed that 22% of adults in the region had reduced lung function, and half displayed symptoms of depression. The fires, which broke out in August 2023 and were the worst to affect Hawaii in recent history, killed at least 102 people and destroyed more than 2,000 structures. The authors of the Maui study said their results show the need for "sustained clinical monitoring and community-based mental health supports" months after a climate disaster. A second study on the Hawaii fires suggests that Maui saw the highest suicide and drug overdose rates in the month of the 2023 wildfires. Wildfires have become more frequent in recent years as a result of climate change, driven by hotter and drier weather that fuels fire spread. In addition to directly threatening lives and structures, smoke from wildfires has been shown to have adverse health effects on people. Wildfire smoke has been found to be harmful to certain immune cells in the lungs, with a toxicity four times greater than particulates from other types of pollution. This can have a long-term impact on cardiovascular health, experts have said. Older people, pregnant women and young children, as well as those with underlying health conditions, such as heart disease or asthma, are more likely to get sick, experts say. But the smoke can also impact healthy adults. One dead and thousands evacuated as wildfire spreads in France Massive clouds of smoke blanket parts of California as Gifford fire grows Canadian wildfires prompt New York air quality alert Ten workers killed battling wildfires in Turkey
Yahoo
6 minutes ago
- Yahoo
What's slimy, green and flourishing thanks to climate change?
If you guessed algae, you're right. New research published in Communications Earth & Environment suggests algae growth is increasing in Canada's lakes — even remote ones — and climate change is the main culprit. A team led by researchers at McGill University in Montreal and Université Laval analyzed sediment cores taken from 80 lakes across the country and found that algae has been increasing in the majority of them since the mid-1800s. For lead author Hamid Ghanbari, the most interesting finding was a spike in the rate of the increase in algal growth: since the 1960s, it increased sevenfold. "This was something very surprising for us and when we compared our data with other historical records, we found out that rising temperature is a major factor," Ghanbari said. Aside from climate change, excess nitrogen and phosphorus can also contribute to algal growth when they are carried into waterways through runoff from animal manure and chemical fertilizers, stormwater and wastewater. Algae, along with bacteria and phytoplankton, are essential for the aquatic food web. But too much algae can be a bad thing. The recently published peer-reviewed study looked at algal growth overall and didn't analyze for blooms. While some lakes see some algae as a part of their cycle, Ghanbari said the concern is what will happen if the increase in algae leads to growth outside of what's normal. "That's where the problem starts," he said. "We don't know at the moment what that threshold is, but we know the increasing chlorophyll or algae levels in the lakes could lead to several problems." Ghanbari said excess algae growth can harm aquatic life and even human health — reducing water quality, depleting oxygen in the water and creating blooms that can release dangerous toxins, as residents along the shores of Lake Erie know all too well. Daryl McGoldrick, head of water quality monitoring and surveillance for the Great Lakes for Environment and Climate Change Canada, said while increasing algal growth doesn't necessarily mean more toxic blooms, there is a risk to aquatic life. "The study is in line with what we see and [what we] suspect are impacts of warming," McGoldrick said. Global and local action can help Maëlle Tripon, a project manager with Quebec freshwater advocacy group Fondation Rivières, said her team has noticed first-hand that when it's warmer, they see more algae on lakes. She said her takeaway from the research is that tackling algal growth cannot solely rely on local action. "We already knew we need to change locally — like farming practices and also, for example, we need less paved and waterproof surface in the cities," she said. "But what the study shows is that we also need global policies to alleviate climate change." Ghanbari agreed, but added that individual choices can still help reduce algal growth. "Simple acts such as reducing the fertilizers … or properly disposing of household chemicals, these simple acts could really help the lakes," he said.
CBS News
8 minutes ago
- CBS News
Lithium could help treat Alzheimer's disease, Harvard Medical School researchers say
Researchers at Harvard Medical School in Boston now say that lithium could help treat the 7 million people with Alzheimer's disease. For the first time ever, the research team found that lithium naturally appears in the human brain and it has a protective effect, shielding the brain from memory-robbing harm. The researchers found the loss of lithium in the brain could be the first signs of Alzheimer's in a patient. Lab mice saw improvement in memory when their lithium levels were restored after it was withheld in an experiment. The study suggests that one day, lithium could be used to treat Alzheimer's. It's already used to treat people with bipolar disorder. "I think these new findings suggest a new potential mechanism for Alzheimer's disease and it raises hope for a therapeutical approach that could potentially be benign and rather in expensive," said Dr. Bruce Yankner, a professor of genetics and neurology at Harvard Medical School. Only mice have seen the lithium trials so far. It's unclear if adding lithium to a human patient would have the same effect but it gives scientists a new avenue to study. "We need to see what happens in a human. So I do not recommend that people go out and take lithium based on this," said Yankner. "Our hope is that it will enter into early clinical trials in the not too distant future." Yankner said he "can't be precise" on when a possible trial in humans would begin.
