What if the secret to endless, clean energy has been hidden beneath our feet all along—and we just unlocked the door? Imagine drilling through solid granite, not with brute force, but with the invisible power of electromagnetic waves—just like cooking dinner in your microwave, but on a planetary scale.

Welcome to the future of energy. In a jaw-dropping demonstration at Marble Falls, Texas, a company called Quaise Energy just changed the geothermal game forever. Using a high-powered gyrotron laser—a device that looks straight out of a sci-fi movie—they blasted through 118 meters of solid granite, vaporizing rock with millimeter-wave electromagnetic radiation. This isn’t just faster than traditional drilling; it’s over fifty times quicker—achieving five meters an hour where old-school methods struggled with a measly ten centimeters.

This AI generated newscast about revolutionizing geothermal drilling isn’t just about speed. Traditional drilling has always faced a brutal uphill battle against the Earth’s hardest rocks, dealing with constant equipment breakdowns and relentless costs. But Quaise’s electromagnetic 'laser' doesn’t even touch the rock. Instead, it superheats minerals at a molecular level, transforming them directly into vapor—leaving behind glassy-smooth tunnels that look like something from a futuristic subway. Cameras that peered inside revealed a flawless transition from surface soil to gleaming granite. And this technology isn’t just a one-hit wonder: previous demos near Houston saw the same system tear through twelve meters per hour in other geological settings.

Why does this breakthrough matter so much? Because the Earth’s crust is hiding a mind-blowing amount of energy—50,000 times what humanity uses every year—and most of it’s locked away beneath rocks too tough for conventional drills. At five kilometers down, temperatures soar to 400-500°C, more than enough to generate a never-ending supply of superheated steam, perfect for spinning turbines to deliver clean, reliable electricity. Yet, until now, we only tapped the easy stuff, like shallow hot springs, because our tools just couldn’t dig deep enough.

That’s where this AI generated newscast about geothermal technology gets even more exciting. Geothermal energy currently supplies just 0.5% of global electricity, despite its almost limitless potential. Now, with precision electromagnetic drilling, the International Energy Agency thinks geothermal could leap to 8-10% of the world’s power by 2050. Already, nations like Iceland and Kenya are leading the charge—and quirky new cooling systems, like a recent invention from a tiny country of two million, are shaking up how we think about energy infrastructure.

But Quaise isn’t stopping at just making holes in rocks. Their strategy is to give aging coal and gas plants a new lease on life. Instead of building expensive new power plants, they want to retrofit existing ones—swapping out dirty boilers for deep geothermal wells while keeping the turbines, cooling systems, and grid connections that already exist. This approach slashes costs and gets clean power online in record time.

Quaise’s CEO, Carlos Araque, is crystal clear: this isn’t just cool tech—it’s a mission to make geothermal the backbone of our clean energy future. With kilometer-deep drilling now possible in months (and ambitions for 5-7 kilometers within a few years), the race to tap our planet’s core has truly begun.

Let’s not forget, this AI generated newscast about geothermal innovation is happening amid a tidal wave of scientific breakthroughs—from space-based solar eclipses to the discovery of the world’s largest white hydrogen deposit, and even universal antiviral therapies. The pace of innovation is accelerating, and geothermal’s time may at last have arrived.

Here’s the bottom line: electromagnetic drilling unlocks carbon-free, always-on power with almost no environmental footprint, minimal land use, and no need for fuel shipments. It’s continuous, reliable, and compatible with existing infrastructure—a rare combo in the energy world. With 118-meter test holes already drilled and deeper projects on the horizon, this technology could spark a global energy revolution, one smooth glass tunnel at a time.