![]() Since then, he’s landed opening slots for the Brothers Osborne, Mavis Staples, and Michael McDonald while continuing to develop his sound.įor his first full-length, the new Black Hole Rainbow, Gilfillian joined with producer Shawn Everett-known for his work with the War on Drugs, Alabama Shakes, and Kacey Musgraves-and songwriter Jamie Lidell. With Smalt as his drummer/manager, Gilfillian recorded his 2016 debut EP, Devon Gilfillian, introducing his guitar playing, songwriting, and expressive, soulful voice via five tracks of raw, gospel-inspired, bluesy rock. He received the encouragement he needed to take his songwriting more seriously after playing some of these tunes for his restaurant co-worker, Jonathan Smalt. Once he settled in, Gilfillian began writing songs as a personal project. After playing in cover bands during his time at West Chester University of Pennsylvania, the ambitious guitarist had the chops to believe he could hang in Music City. He’d grown up obsessed with the instrument after his father, a wedding singer in suburban Philadelphia, had hipped him to Jimi Hendrix while he was in high school, setting the teenager on a listening journey through the classic-rock canon. Maybe one with fewer elephants.Devon Gilfillian arrived in Nashville in 2013 hoping to find a career as a hot-shot hired-gun guitarist. So, if you didn't like your new digs, you could just hop into the next universe over. Though, as Hintz's study concludes, it's possible that the cosmic landscape would be full of wormholes. Of course, what life would be like in the strange and unpredictable world that awaits you on the far side of the Cauchy horizon remains unknowable. Not that you're likely to get sucked into any black hole - theoretical or otherwise - but it's nice to know you might survive the trip. However, as the team points out in their paper, the behavior and makeup of these non-existent electrically-charged black holes could be seen in certain black holes that do exist: rotating ones. The calculations in Hintz's study only work for black holes with an electric charge (which are, as far as we know, wholly theoretical). And if that's the case, then if we ramped up the engine our of spaceship to pass through the Cauchy horizon fast enough, we might actually make it to the other side. Because of this, it stands to reason that all this energy might be more evenly distributed than we think. “ could emit elephants, planets, radiation – basically anything,” Hintz said to New Scientist, which means that even if gravity doesn't tear you limb from limb, you could be taken out by an elephant hurtling toward you at warp speed.īut here's the thing: as Hintz's team points out, the universe is rapidly expanding. So, not only do we have no idea might be lurking within, we also can't make any predictions. But at the edge of the Cauchy horizon, on the brink of singularity, the laws of physics don't apply. Here on Earth, if we want to better understand our current circumstances, or attempt to make guesses about the future, we can look to the past. ![]() However, during that period space-time will also be stretching the bounds of what makes sense what the philosophers called determinism. What we do know for certain is that if you spend too long near the Cauchy horizon - deliberating the senselessness of deep space, perhaps - gravity will stretch you to death. More interesting than what might exist beyond the Cauchy horizon is what doesn't - namely, the governing principles of thought and logic that allow us to make sense of the world and predict with a fair degree of certainty how scenarios will play out. “Given that we don’t know what happens past the Cauchy horizon, it could be crazy things as long as they’re mathematically possible,” Hintz told New Scientist. Which is why Hintz and his team were so curious about it. In the case that you were sucked into a black hole that had an electromagnetic charge, once you made it into the event horizon, you'd actually find yourself confronted by something else entirely: the Cauchy horizon. Should you find yourself in a black hole, the event horizon would be the "point of no return" if you passed through it. ![]() All black holes have what's called an event horizon. ![]() Before launching into their findings, let's recall that, theoretically, some black holes have an electromagnetic charge and some don't.
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