Can you listen with light? LISTEN is my portrait of GW150914, the first gravitational wave humans observed. I reshaped a vinyl record until its surface rippled as if spacetime itself were stamped into PVC. A laser tonearm, echoing LIGO's interferometers, skims the ridges, while its reflected beam casts a shadow that traces the wave's shape. Tap the record's label with a phone and the signal plays, making the phenomenon both seen and heard. I build machine learning tools to recover faint gravitational-wave signatures in LIGO's noisy data and to infer the properties of their distant sources. In LISTEN, the shadow appears only when light and surface align precisely; in my research, signals emerge when models are tuned carefully to shifting noise. Once uncovered, the record tells a story that began 1.4 billion years ago, when two black holes collided, sending a brief spacetime disturbance on a long journey. GW150914 crossed the cosmos as continents drifted, life crawled from the seas, and humans learned to measure the imperceptible. When it moved through us one quiet morning in September 2015, we were not only observers but instruments, moving with the universe's tides. And as the wave moves on, we remain. Still listening.