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Remembering ‘Papa Flash’

MIT Professor Harold Edgerton’s high-speed photography and sonar devices revolutionized ocean exploration.
Harold “Doc” Edgerton holds a Polariod camera while photographed from inside the MIT pool.
Caption:
Harold “Doc” Edgerton holds a Polariod camera while photographed from inside the MIT pool.
Credits:
Photo courtesy of the MIT Museum
Jacques Cousteau and 'Doc' Edgerton aboard the French ocean explorer's boat, Calypso.
Caption:
Jacques Cousteau and 'Doc' Edgerton aboard the French ocean explorer's boat, Calypso.
Credits:
Photo courtesy of the MIT Museum
Edgerton (center), Bill MacRoberts (right) and an unidentified man pose by a sonar boomer on a dock at the Woods Hole Oceanographic Institution in 1964.
Caption:
Edgerton (center), Bill MacRoberts (right) and an unidentified man pose by a sonar boomer on a dock at the Woods Hole Oceanographic Institution in 1964.
Credits:
Photo courtesy of the MIT Museum

The late MIT Professor Harold “Doc” Edgerton enchanted the world with his high-speed flash photography, which could “freeze time” down to the millionth of a second — as a bullet tore through a banana or a droplet landed in a pool milk (two examples of his well-known photos). His photography devices provided physicists new ways to analyze the dynamics of fluids, air and engines and aided in World War II aerial reconnaissance. He also took his cameras underwater. Oceans at MIT remembered Edgerton’s major contributions to ocean exploration and marine biology on the 23rd anniversary of his death by pouring through MIT’s extensive Edgerton Digital Collections Project to unearth the passion that brought vision under the sea.

Harold “Doc” Edgerton was first drawn to underwater photography because of a leaky box. It all started in the mid-1930s, when E. Newton Harvey, a bioluminescence expert, approached him for advice on photographing phosphorescent deep-sea fishes for an upcoming book. Never one to refuse helping anyone, Edgerton assembled the camera and instructed Newton to encase it in a watertight box to lower into the depths. But soon, upon bumping into the author in Harvard Square, Edgerton learned that the box had distorted and cracked, allowing seawater in and ruining Newton’s project. From then on, Edgerton was determined to “see through” seawater with a camera of his own making. “Why not a spherical design or even a cylindrical one?” Edgerton wrote once. “Soon I was sketching all sorts of designs.”

Water scatters light, creating “fog” within short distances, which makes taking anything but close-up photos underwater difficult. Edgerton knew this, and got right to work in his MIT lab devising lamps that could handle all ocean challenges: they produced high-intensity light, possessed mechanical strength to withstand great pressures, and required high efficiency batteries for hours-long missions. By 1937, Edgerton had designed his first successful underwater camera for oceanographic research in collaboration with Woods Hole Oceanographic Institution researchers.

Soon came a series of almost magical tools for marine biologists, who were frustrated that camera lights scared animals away. For example, Edgerton designed a camera he called an “interruption camera,” which functioned when a passing sea creature interrupted a light beam, triggering the camera shutter and its rapid flash. In the early 1940s, he applied high-speed motion cameras to the tricky problem of tracking rapidly moving marine animals, such as seahorses. Seemingly motionless organisms were revealed as quite busy life forms in Edgerton’s underwater time-lapse photography — a tool not just for spying on sea urchins, sand dollars and starfish, but also for studying erosion patterns. Not until the late 1950s did Edgerton invent a camera that could capture animal bioluminescence at depths of 6,000 meters — the problem that started it all.

Edgerton marveled that these images revealed “a host of items unsuspected and illuminate a variety of others which for long have resided in the limbo of half-knowledge.”

The year 1952 was a game changer for Edgerton. In that year, the National Geographic informed Edgerton that a relatively unknown Frenchman named Jacques Cousteau was interested in speaking about underwater photographic experiments. Not two hours after Edgerton picked up Cousteau at Boston’s South Station was the explorer in the MIT swimming pool testing out an experimental camera of Edgerton’s. That day, Cousteau and Edgerton planned projects to explore under the sea off the southern coast of France.

In partnership with Cousteau, Edgerton began to probe the ocean floor with sound, eclipsing his underwater photography achievements. On their first expedition in the summer of 1953, the duo realized they needed a way to tell the distance between the camera and the sea floor while lowering the equipment into the water. On the spot, Edgerton invented the “pinger,” a sound-pulsing device attached to the camera. When the device received a sonar signal from the sea floor, it would trigger the strobe lights and camera. The operator would then examine the echo to check whether the camera was in a suitable range.

Cousteau and Edgerton soon developed a tight friendship; “My Dear Papa-Flash!” Cousteau would exclaim in handwritten messages about their joint ventures. Aboard the Calypso, the two men and crew went on to locate and explore many underwater ruins and shipwrecks, which they continued around the world into the 1980s. Such underwater archaeology was made possible by several of Edgerton’s sonar devices, such as the “thumper,” which analyzed the seabed rock, and the “boomer,” which provided a seismic profile of the ocean floor.

Edgerton decided to play around with sonar devices, shifting the sonar beam sideways. When towed behind a ship, the “side-scan sonar” device creates continuous images of the seafloor. Edgerton’s former student and colleague, Martin Klein, later developed the first commercial dual-channel side-scan sonar, which was used to find the Titanic wreck.

Edgerton won numerous awards for his work, including the National Medal of Science in 1973; he even won an Oscar for a stroboscopic film. But he is remembered at MIT, most of all, for his generosity, gregariousness and teaching talent.

One former student, Kim Vandiver, professor of mechanical and ocean engineering and director of the MIT Edgerton Center, worked as Edgerton’s teaching assistant in the 1970s, when the inventor was past retirement age, but still running his lab. Vandiver’s first project allowed him to photograph the tiny bubbles that come off the tips of a rapidly whirring propeller, jumpstarting his future in ocean engineering at MIT.

Vandiver remembers the charm of his former mentor: “He was one of those people who could make you feel, when the conversation was going on, that you were the only person in the world, and he did that to thousands of people.”

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