What’s Something You’d Love To See In The Future, But Know You Probably Won’t Live To Witness?

One day humanity will make contact with another civilization in our galaxy. The odds are almost certain we won’t be alive to see it.

Daily writing prompt
What’s something you’d love to see in the future, but know you probably won’t live to witness?

That’s easy: first contact with an alien civilization.

I’m a space and science fiction fanatic. I mainline science fiction novels, keep tabs on the latest discoveries via the JWST, and I think about what’s out there probably more than I should.

There’s a burning desire in our hearts — for some of us, at least — to know for sure that we’re not the only ones, that humanity is not alone in a cold, lonely and infinite universe.

The events of 2026 are testament to that desire to know. Between the government release of UFO-related documents, former government employees coming forward with tall tales of crashed ships of non-terrestrial origin, and the return of Steven Spielberg to the director’s chair for another film speculating about what’s Out There, we’ve been thinking about aliens quite a bit collectively.

As for that central question, I’m not talking about simple cellular life. I don’t think you can find an astrophysicist, astrobiologist, astronomer, evolutionary biologist or anyone in a tangentially related field who honestly thinks life is unique to our planet.

The more relevant question is whether we are the sole sapient species, the lone civilization in our galaxy.

Credit: CaptainFrank/Pexels

Think about the numbers: There are an estimated 300 billion star systems and trillions of planets in the Milky Way! Life has had a lot of places to evolve.

The Fermi paradox

That was the point the physicist Enrico Fermi made in 1950, when he had a now-famous lunchtime conversation with fellow scientists at Los Alamos. Probability alone indicates the galaxy should be teeming with life.

So, he asked his colleagues, where is everyone?

It’s now known as the Fermi paradox, and it’s guaranteed to come up in almost every conversation about the possibility of intelligent aliens. With so many star systems, planets and moons, surely some other species took an evolutionary path toward intelligence.

It’s a bit more complicated than that, of course. In a universe that is 13.7 billion years old, there has been enough time for innumerable species to evolve and fade, for countless empires to rise and fall. That means the question is “When is everyone?” just as much as it’s “Where is everyone?”

The truth is we’ve only been looking in earnest for about half a century. It’s only in the last four or five decades that we’ve had telescopes like the Hubble, Spitzer, Kepler and James Webb, which have revolutionized astronomy by giving us views we could previously only dream of.

It was only in the 90s that astronomers pointed the venerable Hubble at a black, seemingly empty patch of space, took a two week exposure and changed our understanding of the cosmos forever when the resulting image showed some 10,000 galaxies that were too faint to see before.

That patch covered only 2.6 arc minutes, or 1/24 millionth of the sky!

A partial image of the Hubble Ultra Deep Field. Credit: NASA

Despite what we’ve learned, we’ve barely begun the search for other intelligent civilizations.

Drawing any conclusions from our efforts so far would be like organizing a manhunt, then calling it off five seconds later because the suspect hasn’t been caught yet. Fifty years is nothing when scouring the cosmos. It’s less than an eyeblink of an eyeblink on a galactic scale.

Looking in the wrong place

As for the idea that aliens have visited us, that they crossed the interstellar void to etch patterns in our crops, delight stoners with light shows and evade every camera on the planet except for low resolution bricks from the dawn of the cell phone era, I’m not buying it. Neither should anyone else. Likewise for the claim by the JD Vances of the world insisting alleged UFOs are “demons” sent to torment us.

As Carl Sagan said, extraordinary claims require extraordinary evidence, and it is abundantly clear that the UFO enthusiast community can only offer blurry images not because of a lack of high resolution cameras, but because high res photos of the “phenomena” reveal they are mundane objects. They only become strange spacecraft when you blur them and squint.

Bird. Insect close to the camera. Exhaust plume. Debris. Visual artefact. Maybe. Proof of aliens? Absolutely not.

But there’s another, more important reason why aliens are not joyriding through our skies: if aliens are out there, there simply has not been enough time for them to become aware of our existence, let alone travel here.

Even light is “slow” on a galactic scale

As most of us know, when we look at the stars we’re seeing them as they were in the past, not as they are now. That’s because the distances between stars are so mind-bogglingly great that even light, which moves faster than anything in our universe, takes ages to cross the void.

The same limitation applies for anyone who might be looking in our direction from somewhere else in the galaxy. They see our star system as it was, not as it is. They see a silent star system without signs of an intelligent civilization.

Starliners and generation ships are popular concepts in science fiction for interstellar journeys that can take decades, centuries or longer.

Our galaxy is more than 100,000 light years across, so let’s say an intelligent alien race exists relatively close by in galactic terms, at “only” 500 light years away.

We have been a technological civilization for only a short time and didn’t create signals powerful enough to reach beyond our star system until the 1970s, according to SETI. That means there weren’t technosignatures hinting at our presence until about 50 years ago.

As a result, the soonest our hypothetical aliens could become aware we exist is about 450 years from now. That is how long it will take light carrying information about our technosignatures to reach them.

If our hypothetical alien friends are looking in our direction (a massive if in a galaxy with 300 billion stars to analyze), and if they have highly advanced telescopes, they might detect us. If we imagine they’re friendly and they send a message saying “Howdy, neighbors! You’re not alone! There are wonders to discover and many civilizations to meet out here!” it would take another 500 years for the message to reach us.

That means we wouldn’t know anything until around the year 3,000, if we survive that long without blowing ourselves up. (That’s a real possibility, and things aren’t looking very promising right now.)

And again, that’s if hypothetical intelligent aliens exist in our immediate galactic neighborhood. If there’s an intelligent civilization that exists, say, 4,000 light years away — which is still not very far in galactic terms — the soonest we could hear from them is about 8,000 years from now. (Four thousand for them to detect our technosignatures, four thousand for their message to reach us.)

The point is, space is big. Ridiculously, incomprehensibly, stupidly vast. More than 99.995 percent of the galaxy cannot be aware of our existence yet, let alone travel here, because of the reasons explained above.

The distances between stars are so great that we cannot comprehend them as they are, because nothing in human experience compares. We can only understand them in the abstract. As terrestrial animals with short lives, we are simply not equipped to live or think on galactic timescales.

The sun’s location within the Milky Way galaxy. Not to scale.

To put this in context another way, our closest stellar neighbor, a volatile triple star system, is 4.3 light years away. Yet even with the most advanced propulsion systems currently available to us, it would take us more than 70,000 years to get there!

If we manage to crack fusion and humanity’s most brilliant engineers are able to fit a starship with a compact fusion reactor, the travel time to the nearest star becomes “only” about 7,000 years.

Understanding just how big space is, and how long it takes to travel between stars, goes a long way to explaining why we’re wasting our time and resources with a fruitless search for alleged alien craft in our skies.

Light moves at 186,282 miles per second. Credit: Ehsan Ahmadnejad/Pexels

So where does that leave us?

I believe that one day we will learn we’re not alone. By we, I mean our species. I really hope it happens in my lifetime, but for all the reasons explained above, that’s wishfull thinking. The universe doesn’t care what we want, and it certainly doesn’t change the geometry of space-time to accommodate the wishes of dreamers on Earth.

Alien: Friend or foe?

I don’t think we’ll have to worry about belligerence. If a civilization is capable of sending ships to us, there’s literally nothing in our inventory of meager, planet-based resources that could interest a species that advanced. They wouldn’t want to eat us, because our biology would not be compatible. The amount of energy our entire civilization can muster would be laughable to an interstellar species.

And as the physicist Michio Kaku has argued, there’s a very strong argument to be made that if a species is advanced enough that interstellar travel is relatively trivial, it would have long ago shed any tendencies toward tribalism, sectarian violence or inventing gods of the gaps. You simply cannot reach that stage of advancement if you’re wasting resources and your most brilliant minds on war and petty divisions. (Kaku knows that better than anyone. His mentor was Edward Teller of Manhattan Project fame.)

The more significant danger, as Kaku likes to say, is that we may be beneath their notice and we’ll get “paved over.” A civilization capable of building cosmic megastructures, for example, wouldn’t consult us any more than we’d consult ants before laying a six lane super highway over their ant hill.

Still, there’s always a chance we’ll encounter something like MorningLightMountain, the nightmare alien intelligence from Peter F. Hamilton’s incomparable novel Pandora’s Star. The problem with MorningLightMountain wasn’t that diplomacy failed. There was no disagreement over resources or territory. Humans didn’t threaten it.

Rather, the alien’s psychology was so different from ours that it could not understand the concept of allowing other life to exist in the galaxy. No amount of discussion or attempts to persuade it would have made a difference, so immediately upon learning of our existence it launched a genocidal war that forms the bulk of Pandora’s Star and its sequel, Judas Unchained, two of the most beloved books in the modern science fiction canon.

Still, I’d like to think there is a galactic fraternity out there, an informal alliance of intelligent species united by curiosity and the effort to understand our universe. Whatever’s out there is likely to take forms we can never imagine and think in ways that never occurred to us.

If one day we do make first contact, I hope the best of humanity will be our representatives. And on that day, I hope humanity will be awestruck by the wonder of the universe, realize that slaughtering each other over land or beliefs is insane, and finally become united as a species.

Or even better, finally united as the children of Earth. After all, Buddy has made it abundantly clear that if I come into possession of a starship, he gets the most comfortable seat on board and gets to drive. The latter ain’t happening, but as for the former, I’d be thrilled to explore the cosmos with my little pal.

Radiation Cats: The Bizarre Idea To Turn Felines Into Living Nuclear Waste Detectors

How do you ensure people will heed warnings to steer clear of nuclear waste storage sites thousands of years in the future? One outlandish proposal involves genetically engineering domestic cats to glow in the presence of radiation.

Imagine you’re a person living five thousand years downstream.

Maybe civilization collapsed and restarted, maybe records were lost, or maybe like Etruscan, Harappan and proto-Elamite, the languages we speak today will be long forgotten.

At any rate, if you discover a forceful warning left by your ancestors from the deep past, would you understand it without translation or cultural context?

And if you’re the one tasked with leaving the message, how would you do it?

The message has to be enduring. It must be recorded in a format that will withstand the tests of time, conquest and natural disasters. The message must be comprehensible without cultural context, because we have no idea how language will shift in the future or whether our descendants will enjoy the knowledge that comes with continuity of records.

Lastly, the message must be both compelling and absolute in its meaning, because its content is vitally important: This site contains nuclear waste. Do not under any circumstances excavate or disturb the contents of this facility. It will lead to sickness, suffering and death.

The traditional trefoil warning sign is unlikely to scare anyone off. The new radiation hazard sign, right, seems unambiguous, but so do warnings on Egyptian tombs.

How do you phrase that in a way our naturally curious species will heed the message?

We certainly didn’t heed the warnings on the tombs of King Tut and other pharaohs. For all we know, humans of the future might believe the hidden chambers deep in Yucca mountain or buried 3,000 feet underground are filled with fabulous treasures and wonders beyond imagination.

They might interpret the warnings as superstition, meant to ward off looters, “grave robbers” and anyone else who might be motivated to break in. They might see the care and effort that went into encasing the objects and conclude there must be something very much worth preserving inside.

Or they might be driven by simple curiosity, as so many human endeavors have been.

A tour group visiting the incomplete Yucca Mountain nuclear waste storage facility. Credit: Daniel Meyer/Wikimedia Commons

Arguments about how to warn the future are at least as old as the Manhattan Project (1942) and the first nuclear power plants (1954 in the USSR, 1958 in the US), but there weren’t serious efforts to come up with a plan until the 1970s, when scientists, historians and other thinkers began to engage in formal efforts to find a long-lasting solution.

Some of the ideas are boring, some are impractical, and some are absurd, like an idea to create a “garden of spikes” atop nuclear material waste sites, to discourage people from settling in the area or excavating.

Unfortunately, one idea that’s still being kicked around is the concept of the radiation cat, or raycat.

Knowledge and language may be lost to history, signage may be destroyed, physical obstacles may be removed. But one constant that has endured, that has seen empires rise and fall, and has existed long before Stonehenge and the pyramids of Giza, is the human relationship with cats.

They’re now valued as companions, but we still use them as mousers on ships, in heavily populated cities, in ancient structures and on farms and vineyards.

They’re embedded so deep into our cultural psyche that it would not be outlandish to think the archaeologists of the future may conclude the internet was constructed primarily to facilitate the exchange of images of cats.

Even the first high-bandwidth deep space transmission was a video of a cat, so in a very real sense, the dawn of a solar system-wide internet was heralded by an ultra high definition clip of an orange tabby named Taters, beamed back to earth from the exploratory spacecraft Psyche, which was 19 million miles away when it transmitted Taters on Dec. 11, 2023.

Consider also that the basic felid body plan — shared by domestic kitties, tigers, pumas, black-footed cats and the 37 other extant species — has barely changed in 30 million years, because cats are extremely successful at what they do.

In other words, cats aren’t going away, and domestic felines have a place in every human society.

So philosophers Françoise Bastide and Paolo Fabbri conceived of the “living warning” in 1984. The idea is to alter the genetic code of felis catus so that the animals glow or change color in the vicinity of nuclear waste, using minuscule levels of radiation as the trigger.

There are natural precedents for this, including bioluminescence and several species of octopus that radically change colors and patterns on their skin to evade predators.

The second component, once the genetic code has been altered, is the creation of folklore: songs, stories and myths that will endure through time, warning people to keep cats close, treat them well, and run like hell if they change color because it means something terrible, something evil beyond imagination, is nearby.

To ensure the folklore of feline Geiger counters endures, an idea by linguist and semiotician Thomas Sebeok would be incorporated. Although empires and states rise and fall, there’s one organization that has survived for 2,000 years preserving a unified message: the Catholic church.

Sebeok proposed an atomic priesthood, an order that would pass the knowledge down through generations, continually seeding culture with stories and songs of glowing felines.

Spent nuclear fuel rods are stored in on-site pools at the facilities where they were used, but pools are meant only as temporary storage solutions. Credit: Wikimedia Commons

If this stuff sounds wacky, that’s because it is. We won’t figure out a way to ensure a message is received and understood thousands of years in the future without considering some off-the-wall plans.

Of course messing with the genetic code of any animal raises serious ethical questions.

We don’t have the right to play God and tinker with the genetic code of extant species. We don’t fully understand the immediate consequences for the health and happiness of cats, and we know almost nothing about the long-term effects on the species.

I’d also argue that we have a special relationship with cats and dogs, one that exceeds any obligations we may feel toward our primate “cousins” or other non-human animals.

Cats and dogs have been living with humans for a combined 40,000 years. They have been molded by us, they are dependent on us, and all that time in human proximity has led to unique changes.

No animals on this planet can match them when it comes to reading human emotions. Our little buddies pick up on our emotional states before we’re consciously aware of them partly because of their robust sensoriums, and partly because as their caretakers, our business is their business.

A clip of a cat named Taters was the first data burst transmitted to Earth using NASA’s upgraded deep space network. Credit: NASA/JPL

We bear a responsibility to both species and the individual animals. It’s not just the fact that without them, our lives would feel less meaningful. It’s the indisputable fact that without them — without dogs who flushed out prey on yhr hunt and guarded small settlements, without cats who prevented mass starvation by hunting down rodents — we would not be here.

Cats and dogs play a major role in the story of the human race. We are indelibly linked. Their DNA is not ours to tinker with, and they are not tools we can repurpose at our convenience.

Thankfully the US Department of Energy has never endorsed the concept of raycats. While there is a website advocating for a raycat program and small groups around the world dedicated to its propagation, the interest is mostly academic.

The Raycat Solution, which maintains a site dedicated to the idea, has a FAQ which says its supporters are serious about its potential usefulness, but for now most experts see it as a thought experiment and reminder that the problem must be dealt with eventually. At some point NIMBY will have to yield to reality, and wherever the US ends up storing nuclear waste, it’ll need to be secured, sealed and marked.

The goal is for the message to endure at least 10,000 years, at which point scientists say the radiation will be minimal.

That’s assuming that the future holds the collapse and rebuilding of human civilization, or at least a technological backslide in which the majority of our species’ knowledge is lost.

We like to think things will be brighter than that and instead of glowing to warn people of danger, cats of the far future will be where they belong — with their human buddies, exploring new frontiers on starships with plenty of comfortable napping spots.

Header image depicts the Alvin Ward Vogtle Nuclear Power Plant in Georgia, the largest nuclear plant in the US. Image via Wikimedia Commons/NRC

[1] The nuclear waste storage facility at Yucca Mountain was initially funded and approved by congress in 2002, then was canceled and de-funded in 2011 after significant pushback from people who live in Nevada, along with their representatives in congress. Plans for the site have changed several times in more than two decades, leaving the US with no central, secure site to store nuclear waste.