Philip Abelson

Early Life and Education

Philip Abelson (1913-2004) was an American physicist, chemist, and inventor who made significant contributions to various fields of science throughout his career. Philip Abelson was born on April 27, 1913, in Tacoma, Washington. His parents were Jewish immigrants from Lithuania, and his father was a pharmacist. Abelson showed an early interest in science and technology and started experimenting with electronics when he was only eight years old.

Academic Background

Abelson attended the University of Washington and received his Bachelor of Science degree in 1933. He then went to the California Institute of Technology (Caltech) to pursue graduate studies in physics. Abelson obtained his Ph.D. from Caltech in 1939, with a thesis on the radioactive decay of uranium-235.

Work on the Manhattan Project

During World War II, Abelson worked on the Manhattan Project, which was a research project aimed at developing atomic weapons. Abelson worked at the Metallurgical Laboratory in Chicago, where he helped develop a method for separating the isotopes of uranium. This method, known as electromagnetic separation, was used to produce the enriched uranium that was used in the atomic bomb dropped on Hiroshima.

Post-War Career at the Carnegie Institution

After the war, Abelson joined the Carnegie Institution of Washington’s Geophysical Laboratory, where he worked for the rest of his career. Abelson’s research at the Geophysical Laboratory focused on nuclear physics, geology, and geochemistry.

Contributions to Nuclear Physics

In the late 1940s and early 1950s, Abelson made several important contributions to nuclear physics. He discovered the beta decay of tritium, a radioactive isotope of hydrogen, and measured the half-life of carbon-14, which is used in radiocarbon dating. Abelson also developed a technique for measuring the isotopic composition of lead, which is used to determine the age of rocks and minerals.

Geology and Geochemistry Research

In the 1950s, Abelson turned his attention to geology and geochemistry. He developed a technique for dating rocks and minerals using the decay of potassium-40 to argon-40. This method, known as the potassium-argon dating method, is widely used in geology and archaeology to determine the age of rocks and artifacts.

Work in Oceanography and Ecology

In the 1960s, Abelson became interested in oceanography and ecology. He developed a method for measuring the levels of carbon-14 in seawater, which helped scientists understand the global carbon cycle. Abelson also studied the effects of nuclear testing on the environment and advocated for a ban on nuclear testing in the atmosphere.

Advocacy for Environmental Protection

In the 1970s and 1980s, Abelson continued to work on environmental issues. He was a strong advocate for nuclear disarmament and spoke out against the use of nuclear power. Abelson also studied the effects of pollutants on the environment and was involved in efforts to clean up hazardous waste sites.

Scientific Inventions

Throughout his career, Abelson was also an inventor. He held several patents for scientific instruments, including a mass spectrometer for measuring isotopic composition and a device for measuring the levels of carbon-14 in seawater.

Honors and Awards

Abelson received numerous honors and awards for his contributions to science. He was elected to the National Academy of Sciences in 1957 and served as its president from 1980 to 1984. Abelson also received the National Medal of Science in 1987, which is the highest scientific honor in the United States.

Legacy and Death

Abelson continued to work at the Geophysical Laboratory until his death in 2004. He was remembered as a brilliant scientist and an advocate for environmental protection and nuclear disarmament.