Earlier this week, the mathematical physicist and quantum cosmologist Maya Benowitz tweeted that there was a massive announcement in the world of physics coming on June 29.
“Buckle up, we’re going for one helluva ride,” she said.
I have a feeling the 28th and 29th will go down in the history books in an unexpectedly wild way for the foundations of physics.
— Maya Benowitz (@cosmicfibretion) June 23, 2023
Buckle up, we’re going for one helluva ride :)
Her tweet stirred up plenty of controversy, with people accusing her of over-dramatizing the announcement. She even went so far as to say that “all of my joy for physics Twitter is gone.”
Well, the date is June 30, and an international consortium of research collaborations led by the North American Nanohertz Observatory for Gravitational Waves, or NANOGrav, has released the results of a 15-year study. And while no, it doesn’t change jack for the average person, the findings are actually really cool if you want to hear about them.
TikTok’s resident scientific explainer Hank Green does a great job translating the results for us normal people. Or you can read my feeble attempt at an explanation. (For the record, my endeavor towards a Physics and Astronomy major lasted through my sophomore year, where Schrödinger’s equation knocked me onto a journalism path.)
In short, as The New York Times puts it, researchers have discovered “the existence of a low-pitch hum of gravitational waves reverberating across the universe.” And although gravitational waves were officially discovered back in 2015, these new reverberating, low-frequency waves, can be used to tell us about the formation of the early universe, and perhaps even give us a glimpse into the cosmos just seconds after the big bang.
Scientists have been using cosmic microwave background radiation left over from the big bang to learn about the early universe since the 1960s, but gravitational waves can get much closer to the bang itself, as they would have been emitted almost instantly.
Perhaps even more revolutionary than the discovery itself, is the way astronomers came up with it. Gravitational wave detectors on Earth are simply too small to register the low-frequency gravitational waves that early supermassive black holes or the big bang produced.
So, astronomers used pulsars, (rapidly rotating neutron stars that emit a ‘pulse’ of radiation at regular intervals) to act as detectors on a cosmic scale. By measuring irregularities in the pulses and comparing those with other pulsars, scientists were able to effectively use our entire Milky Way galaxy as a massive gravitational wave detector. Pretty cool, (if you’re a nerd).
The gravitational waves measured by IPTA have wavelengths ~10 LIGHT-YEARS. It is literally a galactic scale observatory! Locally (on Earth scales), these GWs aren't waves (they're flat), so LIGO can't detect them. You need a galactic observatory for these.
— Sophia Gad-Nasr (@Astropartigirl) June 29, 2023
Cred: David J Chapman pic.twitter.com/7rhY3wJV9O
Using gravitational waves to observe the universe is still a young concept, and there is a ton more to be learned. So even if you couldn’t care less, Hank Green, Maya Benowitz, and plenty of other scientists are pretty pumped. So can we just let them have their moment?
Did I jump the gun and get overly excited about the possibility of new physics with the @NANOGrav announcement, yes.
— Maya Benowitz (@cosmicfibretion) June 30, 2023
Will I apologize for it, no. pic.twitter.com/nEXkd0MK5O
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