With days left on Baba Vanga’s 2025 alien prediction, scientists explain what first contact would look like | – The Times of India

For most people, the idea of alien contact has been shaped less by astronomy than by cinema. Films have taught us to expect intention: visitors who arrive either with open hands, as in E.T., or with menace, or at least with purpose. Even thoughtful takes like Arrival still hinge on the idea that contact happens because someone, somewhere, chooses it.For all the confidence baked into our pop-culture expectations, the science has stayed stubbornly quiet: even NASA’s James Webb Space Telescope, powerful enough to analyse the atmospheres of distant exoplanets, has yet to pick up anything resembling a deliberate signal, and with only a couple of days left in 2025, the year Baba Vanga is said to have predicted first contact, the distance between pop-cultural anticipation and scientific silence has become harder to ignore. Into that gap steps David Kipping, an astronomer at Columbia University, with an argument that deliberately resists Hollywood framing. In outlining what he calls the Eschatian hypothesis, Kipping does not suggest that aliens will invade, communicate, or reveal themselves. He suggests something more prosaic and more unsettling: that the first extraterrestrial civilisation we notice is likely to be one in the middle of collapse. In a video explaining the idea, Kipping says: “Hollywood has preconditioned us to expect one of two types of alien contact, either a hostile invasion force or a benevolent species bestowing wisdom to humanity. But the Eschatian hypothesis is neither. Here, first contact is with a civilisation in its death throes, one that is violently flailing before the end.” The logic behind this has little to do with science fiction and everything to do with how astronomers already discover things. When people look up at the night sky, a disproportionate number of visible stars are not stable, long-lived ones like the Sun. They are giants nearing the end of their lives, stars that have swollen and brightened dramatically in their final stages. Supernovae are rarer still, yet astronomers observe thousands of them every year precisely because they release extraordinary amounts of energy in a short time. Kipping argues that technological civilisations would follow a similar pattern. A healthy, advanced society would tend toward efficiency, minimising wasted energy and therefore producing fewer detectable signatures. From light-years away, such a civilisation would be quiet. A civilisation undergoing extreme stress, by contrast, would be anything but.Kipping’s argument hinges on the idea of detectability. We are not, he says, most likely to encounter a stable, quietly functioning civilisation going about its business. We are far more likely to notice the outliers, the ones that flare up, briefly and intensely, against the cosmic background. As he explains it:“We should expect that the first detection of an alien civilisation to be someone who is being unusually loud. Their behaviour will probably be atypical, but their enormous volume makes them the most likely candidate for discovery.” In this context, “loud” does not mean broadcasting a message. It refers to what Kipping calls “extreme disequilibrium”: rapid, destabilising processes that dump energy into a planet’s environment in ways that telescopes might notice. He cites nuclear war and runaway climate disruption as examples of events that could briefly make a civilisation visible across interstellar distances.To make the idea concrete, he offers a simple example. A civilisation doesn’t need to announce itself to be noticed; extreme activity does that automatically. He said, for example:“Detonate all the nukes on Earth and we’d light up like a Christmas tree for the whole galaxy to see.” Under this framework, alien detection becomes accidental rather than intentional. We would not be intercepting a signal designed for us, but noticing the astrophysical equivalent of a flare, a spike, or a sudden anomaly that stands out against the cosmic background. Kipping has even suggested that the famous Wow! Signal, detected in 1977 and never repeated, could fit this pattern: not a message waiting to be decoded, but a transient event produced during a brief, unstable phase in another civilisation’s history.If this is right, then searching for alien life may require a shift in strategy. Rather than focusing only on calm, Earth-like systems and waiting for structured communication, astronomers may need to watch for sudden anomalies: short-lived flashes, unexplained bursts, or planetary systems undergoing rapid, unnatural change. If alien life is eventually detected under those conditions, the encounter would tell us very little about who they were and almost nothing about what they wanted. It would simply confirm that intelligence can arise, and that, like stars and ecosystems, it may be most visible at the point where it is least stable.