In a society that is increasingly dependent on technology, it is vital that the units by which everything is measured be uniform. It would seem inconceivable that an inch or a second or a pound in one place could differ in the smallest way from the way those units are understood somewhere else.
A vast effort has been made to create exact, precise and unchanging units of measurement for all the quantities that support every aspect of our lives. One of those quantities, basic to all of the electrical and electronic devices surrounding us, is the volt.
Mrs. Lloyd’s great contribution was in the development of a precise and unchanging standard for the magnitude of the volt. Such a standard makes it possible for a volt in one laboratory, one country or one computer, to be exactly the same as any other.
Working at the National Institute of Standards and Technology’s (NIST) laboratories in Boulder, Colo., from 1977 to 1989, she was a key member of a team that developed what is sometimes called the reference volt. It was part of a modern system of standards that, with progress in science, enabled laboratories to replace physical objects or chemical reactions as the fundamental quantities of measurement.
The reference volt depended on the relationship between the volt and constants of nature that are regarded as immutable. Through a phenomenon called the Josephson effect, microwave radiation beamed onto a superconducting device called a Josephson junction can produce a voltage output.
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Microwaves of precisely known frequencies could be beamed onto intricate, identical and perfectly formed microelectronic chips to produce precise, identical voltages.
A group of scientists at the NIST labs in Boulder designed a Josephson device that used superconducting microchips similar to the semiconducting chips used in many of today’s electronic devices.
Mrs. Lloyd started at the NIST lab in 1977. It was just the right time, said Clark A. Hamilton, who was a member of the superconducting electronics group that developed the reference volt equipment.
“A lot of people made contributions” to the design of the equipment, Hamilton added, but Mrs. Lloyd “was the one to take that design and turn it into an integrated circuit chip.” The chip had 20,000 Josephson devices on it, he said, “and every one had to be perfect.”
Nobody else, he said, “had been able to do it at that level.”
Her skill with integrated circuit layout and fabrication was something that she had learned “from scratch” after joining the lab, according to Hamilton. The chips that he helped design “and that Frances made” are used in the standards laboratories of 70 countries, he said.
The Josephson-effect device has been credited with revolutionizing high-accuracy voltage measurement.
In 1989, Mrs. Lloyd shared the Commerce Department’s Gold Medal for contributions to voltage standards.
Frances Lytle Lummis was born in Honolulu on Sept. 4, 1923. She accompanied her father on his assignments as an Army officer, spent part of her youth in the Philippines and completed high school in Spartanburg, S.C.
She was a Duke University sophomore studying physics when she took leave during World War II to help design airplane propellers in a special program, the Curtiss-Wright Cadettes, that recruited women in science to aid in the war effort.
She received a bachelor’s degree from Duke in 1946 and a master’s degree in physics from the University of Virginia in 1948. She then moved to the Washington area to work at the Naval Ordnance Laboratory.
Her marriage, to Richard Lloyd, ended in divorce. Her son, a urologist at the University of Colorado and the Veterans Affairs hospital in Denver, is her only immediate survivor. He lives in Denver.
Throughout her career, her son said, Mrs. Lloyd was “well aware that people thought women were maybe a little less capable.” Not interested in conflict or drama, he said, she was “not there to prove anything. She just wanted to do physics.”
After a while, he added, “people would see that she was okay.”
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