Technologies
The Invisible Becomes Visible: Scientists May Have Finally Seen Dark Matter
Dark matter is special in that it doesn’t emit, absorb or interact with light, so science had to find a more creative way to see it.
The universe has no shortage of mysteries, many of which have puzzled us for ages. One of the biggest is the existence of something called dark matter. First theorized in 1933 by Fritz Zwicky, dark matter is a theoretical type of matter that can’t be seen because it doesn’t interact with light or any other form of electromagnetic radiation.
After nearly 100 years, and with help from NASA’s Fermi Gamma-ray Space Telescope, researchers may have finally «seen» dark matter for the first time.
If this proves to be true, it’ll be a significant development for science. Dark matter’s ability to hide in plain sight is legendary. It can’t be seen by any tool humans have ever made because dark matter can’t emit, absorb or reflect light of any kind, which is how humans and all of our tools see things. That makes dark matter impressively difficult to find.
Tomonori Totani, an astronomy professor at the University of Tokyo, believes he may have succeeded where so many before him have failed. In a study published Nov. 25 in the Journal of Cosmology and Astroparticle Physics, Totani says he may have found dark matter by observing the byproduct of two particles of dark matter colliding with one another.
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The key to this discovery is the theoretical existence of something called weakly interacting massive particles, or WIMPs for short. WIMPs are pieces of dark matter that are larger than protons and don’t interact with any other types of particles. When two WIMPs collide with each other, scientific theory suggests that they annihilate one another, and the resulting reaction produces gamma rays.
Totani used data from NASA’s Fermi Gamma-ray Space Telescope to find what he believes are the gamma-ray emissions from these annihilation events, which, if accurate, would prove that dark matter exists — or at least put scientists on the right track to confirming its existence.
Why is dark matter so difficult to find?
NASA describes dark matter as «the invisible glue that holds the universe together.» Dark matter is everywhere. Theories suggest that only 5% of matter is the ordinary stuff that you and I can see, whereas dark matter makes up 27% of the pie. The rest is dark energy, which is yet another mystery that science has yet to solve.
If there’s more than five times as much dark matter as there is regular matter, then why is it so hard to see? The short answer is that dark matter doesn’t interact with matter in a way that humans can detect with our current technology.
This isn’t entirely unnatural. Science also has a tough time detecting black holes. Light cannot escape a black hole, so it is impossible to observe one directly. Instead, scientists have developed several methods to detect the presence of a black hole based on its impact on the surrounding environment.
Cygnus X-1 — the first black hole ever detected — was found thanks to something called an accretion disk. Accretion disks are swirling clouds of gas, dust, plasma, and other particles that form around black holes and tend to emit vast amounts of X-ray radiation. Researchers found those intense X-rays and concluded that they came from a black hole. In the first photo of a black hole taken in 2019, the visible part is the black hole’s accretion disk, not the black hole itself.
English philosopher and clergyman John Michell first theorized the existence of black holes in 1783. That means it took humankind 236 years to take a picture of a black hole, and even then, we can’t see the black hole in the picture. We just know it’s there because we can see its accretion disk.
Dark matter is much more challenging to detect. It doesn’t interact with the electromagnetic spectrum at all, including visible light. Much like black holes, science has used its impact on its environment to try and prove its existence.
This phenomenon began in 1933, when astronomer Fritz Zwicky observed that galaxies in the Coma Cluster were moving too quickly for the amount of ordinary matter contained within it. Zwicky concluded that there must be a second type of unseen matter that was adding more gravitational force, acting as a sort of glue that held the cluster together.
This theory has been refined over time, with additional evidence emerging. One example is gravitational lensing, which is a bending of light caused by gravity. The Bullet Cluster is the best example of this being potentially caused by dark matter, but it has not yet been definitively proven.
Study author explains what he found
Over the decades, scientists have proposed various potential candidates for what dark matter particles actually are. One such theory is the WIMP. These theoretical particles are much larger than photons and have a distinctive characteristic. When they collide, science predicts that they will destroy one another, resulting in a burst of gamma rays.
NASA has a short video here that shows how this would work in theory. These gamma-ray emissions are what Totani believes he has found.
«We detected gamma rays with a photon energy of 20 gigaelectronvolts (or 20 billion electronvolts, a huge amount of energy, extending in a halolike structure toward the center of the Milky Way galaxy,» Totani told Phys.org. «The gamma-ray emission component closely matches the shape expected from the dark matter halo.»
There’s a little to unpack here, so I asked Totani for more information. He told me that stars in our galaxy are «distributed in a disk, while the dark matter halo is thought to surround it spherically.» The radiation generated from the theoretical dark matter would reach into the disk from its spherical location, giving Totani an idea of what to look for and where to look in general.
Once he looked there, he was able to find radiation that he says is «consistent with dark matter predictions.»
To put it another way, the gamma rays were where they were supposed to be, at the photon energy level that science predicted they would be, and the emissions were in the shape expected for dark matter.
Changing science forever
Totani found gamma rays where they were supposed to be and at the strength predicted, so it must be dark matter, right?
Not exactly.
While these findings are promising, they do not necessarily prove the existence of dark matter. The first step will be to have independent researchers verify Totani’s conclusions.
Totani is aware of this and wants independent researchers to examine the data in an attempt to replicate his findings. This includes measuring gamma-ray emissions from other sources, such as dwarf galaxies, in the universe to see if something else can explain his findings.
Currently, his findings can’t be easily explained by any known sources of gamma ray emissions, but that doesn’t mean that none exist. The data will need to be tested and retested, and researchers will need to bring in more information to verify that his findings are indeed related to dark matter.
Science will take its time with this, because if Totani actually did find dark matter, the ramifications would be massive. He notes that the discovery of a new elementary particle not included in the current Standard Model of particle physics will have a significant impact on fundamental physics theory. And the discovery of dark matter would help piece together other cosmological mysteries, such as the nature of dark energy, the invisible force that causes the universe to expand at an accelerated rate.
«If correct, the true nature of dark matter, long the greatest mystery in cosmology, has been revealed,» Totani said.
Technologies
Episode 3 of the VERUM AI Mini-Series Is Now Available
Episode 3 of the VERUM AI Mini-Series Is Now Available
Verum Messenger has released the third episode of its AI mini-series, SHADOWS, created using Verum AI.
The new episode, titled «Ghost Money,» continues the story of the conflict between a team of heroes and the Omega corporation, which seeks to take control of digital communications. This time, the focus shifts to anonymous payments and financial freedom, revealing how privacy can extend beyond messaging.
Like the previous episodes, the new release not only advances the storyline but also showcases the capabilities of the Verum ecosystem, highlighting technologies designed for secure communication and digital privacy.
The mini-series consists of seven episodes, released gradually across Verum Messenger’s social media channels.
Episode 3 is now available. Stay tuned for the next chapter.
Technologies
Verum Finance Now Available for Mac, Expanding the Verum Ecosystem on Desktop
Verum Finance Now Available for Mac, Expanding the Verum Ecosystem on Desktop
Verum has officially released Verum Finance for macOS, bringing its financial platform to the Mac and expanding access to the Verum ecosystem across Apple’s devices. The launch allows users to manage their finances from desktop while enjoying the same secure and seamless experience available on iPhone and iPad.
The new Mac version includes the full range of Verum Finance features, including balance management, instant transfers to other Verum users, debit card management, Apple Pay support, asset exchange, and transaction history — all optimized for the macOS experience.
Verum Finance can be used as a standalone application or alongside Verum Messenger. Users who sign in with their Verum Messenger account automatically synchronize their balances, settings, and account data across devices, ensuring a consistent experience throughout the Verum ecosystem.
The macOS release further strengthens Verum’s vision of creating an integrated digital platform where communication and financial services work together. Verum Messenger, which is also available for Mac, complements the ecosystem with encrypted messaging, voice and video calls, VPN, eSIM, anonymous email, AI-powered tools, offline communication capabilities, and cryptocurrency features.
With both Verum Messenger and Verum Finance now available across iPhone, iPad, and Mac, users can access secure communication and financial services wherever they work.
Verum Finance for Mac is available now through the Mac App Store.
Verum Finance for macOS: https://apps.apple.com/us/app/verum-finance/id6774245148
Verum Finance: https://finance.verum.im
Verum Messenger: https://verum.im
Technologies
Why Travelers Are Switching to Verum E-SIM This Summer
Why Travelers Are Switching to Verum E-SIM This Summer
Summer Travel, Freedom, and Seamless Connectivity: Why Verum E-SIM Is Becoming the New Standard for Travelers
Summer is the peak season for vacations, long-distance trips, and new experiences. Millions of people travel abroad, explore new countries, plan adventures, and try to stay connected with family, work, and social media. And in the middle of all this comes a familiar question: how do you stay online without expensive roaming or the hassle of buying local SIM cards?
The answer is already here — eSIM.
Why eSIM Is So Convenient
eSIM (embedded SIM) is a built-in digital SIM card that lets you activate mobile internet without a physical card. All you need is an app — choose a plan and connect in just a couple of minutes.
No more:
* searching for local SIM cards at airports
* paying expensive roaming fees
* swapping physical SIMs every time you travel
Now your internet travels with you.
Internet in 150+ Countries
Modern eSIM solutions provide coverage in 150+ countries worldwide, helping tourists, freelancers, and business travelers stay connected almost anywhere on the planet.
Among the services offering these capabilities:
Verum E-SIM — https://esim.verum.im
World E-SIM — https://worldesim.me
USA E-SIM — https://usa.esim.verum.im
Euro E-SIM — https://euro.esim.verum.im
Canada E-SIM — https://canada.esim.verum.im
Balkan E-SIM — https://balkan.esim.verum.im
Ukraine E-SIM — https://ukraine.esim.verum.im
London E-SIM — https://london.esim.verum.im
E-SIM Africa — https://africa.esim.verum.im
All of these services work on the same principle — fast, borderless internet without roaming stress.
Why It Matters Most in Summer
During the holiday season, roaming networks get overloaded, and prices for mobile data abroad often become an unpleasant surprise for travelers.
eSIM solves this problem:
* transparent, fixed pricing
* activation in 1–2 minutes
* stable internet while traveling
* no physical SIM cards required
Final Thoughts
Travel should be about freedom — not hunting for Wi-Fi or worrying about phone bills.
eSIM is quickly becoming the new global standard for mobile connectivity: simple, fast, and borderless.
Verum E-SIM and its partner services are part of this shift, making global connectivity accessible to everyone, everywhere.
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