Henrietta Swan Leavitt

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Henrietta Swan Leavitt (Template:IPAc-en; July 4, 1868 – December 12, 1921) was an American astronomer.<ref name="Maths History 1921">Template:Cite web</ref><ref name="NYT-20240327">Template:Cite news</ref><ref>Template:Cite book</ref> Her discovery of how to effectively measure vast astronomical distances led to a shift in the understanding of the scale and nature of the universe.<ref name="carnegiescience" /><ref name="Singh"/><ref name="Johnson" />

A graduate of Radcliffe College, she worked at the Harvard College Observatory as a human computer, tasked with measuring photographic plates to catalog the positions and brightness of stars. This work led her to discover the relation between the luminosity and the period of Cepheid variables. Leavitt's discovery provided astronomers with the first standard candle with which to measure the distance to other galaxies.<ref name="1777Variables">Template:Cite journal</ref><ref name="VariableStars">Template:Cite journal</ref>

Before Leavitt discovered the period-luminosity relationship for Cepheid variables (sometimes referred to as Leavitt's Law), the only techniques available to astronomers for measuring the distance to a star were based on stellar parallax. Such techniques can only be used for measuring distances out to several hundred light years. Leavitt's great insight was that while no one knew the distance to the Small Magellanic Cloud, all its stars must be roughly the same distance from Earth. Therefore, a relationship she discovered in it, between the period of certain variable stars (Cepheids) and their apparent brightness, reflected a relationship in their absolute brightness. Once calibrated by measuring the distance to a nearby star of the same type via parallax, her discovery became a measuring stick with vastly greater reach.<ref name=PLhistory />

After Leavitt's death, Edwin Hubble found Cepheids in several nebulae, including the Andromeda Nebula, and, using Leavitt's Law, calculated that their distance was far too great to be part of the Milky Way and were separate galaxies in their own right. This settled astronomy's Great Debate over the size of the universe. Hubble later used Leavitt's Law, together with galactic redshifts, to establish that the universe is expanding (see Hubble's law)Template:Citation needed.

Harvard College Observatory (1899)

Henrietta Swan Leavitt was born in Lancaster, Massachusetts, the daughter of Henrietta Swan Kendrick and Congregational church minister George Roswell Leavitt.<ref name="CSMonitor">Template:Cite news</ref> She was a descendant of Deacon John Leavitt, an English Puritan tailor, who settled in the Massachusetts Bay Colony in the early seventeenth century.<ref name="Byers">Template:Cite book</ref> (In the early Massachusetts records, the family name was spelled "Levett".) Henrietta Leavitt remained deeply religious and committed to her church throughout her life.<ref name="Lightman2010">Template:Cite book</ref>

Leavitt attended Oberlin College for two years before transferring to Harvard University's Society for the Collegiate Instruction of Women (later Radcliffe College), where she received a bachelor's degree in 1892.<ref name="Singh">Template:Cite book</ref> At Oberlin and Harvard, Leavitt studied a broad curriculum that included Latin and classical Greek, fine arts, philosophy, analytic geometry, and calculus.<ref name="carnegiescience">"1912: Henrietta Leavitt Discovers the Distance Key." Everyday Cosmology. N.p., n.d. Web. October 20, 2014. Template:Cite web</ref>Template:Failed verification In her fourth year of college, Leavitt took a course in astronomy, in which she earned an A−.<ref name="Johnson">Template:Cite book</ref>Template:Rp

File:Astronomer Edward Charles Pickering's Harvard computers.jpg

Leavitt also began working as volunteer assistant, one of the "computers" at the Harvard College Observatory.<ref>Template:Cite web</ref> In 1902, she was hired by the director of the observatory, Edward Charles Pickering, to measure and catalog the brightness of stars as they appeared in the observatory's photographic plate collection. (In the early 1900s, women were not allowed to operate telescopes,<ref name=mcneill>Template:Cite web</ref> but the scientific data were on the photographic plates.)<ref name="Exploratorium">Template:Cite web</ref>Template:Dubious

In 1893, Leavitt obtained credits toward a graduate degree in astronomy for her work at the Harvard College Observatory, but due to chronic illness, she never completed that degree.<ref name="Kidwell">Template:Cite journal</ref> In 1898, she became a member of the Harvard staff. Leavitt left the observatory to make two trips to Europe and completed a stint as an art assistant at Beloit College in Wisconsin. At this time, she contracted an illness that led to progressive hearing loss.<ref name="Hockey">Template:Cite book</ref><ref name="Hamblin">Template:Cite book</ref> Leavitt gradually became deaf.Template:R

Woman sitting at desk writing, with short hair, long-sleeved white blouse and vest

Leavitt returned to the Harvard College Observatory in 1903. Because Leavitt was financially independent, Pickering initially did not have to pay her. Later, she received Template:US$ an hour for her work,<ref name="Johnson" />Template:Rp and only Template:US$ per week. She was reportedly "hard-working, serious-minded …, little given to frivolous pursuits and selflessly devoted to her family, her church, and her career."<ref name="carnegiescience" /> At the Harvard Observatory, Leavitt worked alongside Annie Jump Cannon, who also was deaf.<ref name="Sobel">Template:Cite book</ref>

Pickering assigned Leavitt to study variable stars of the Small and Large Magellanic Clouds, as recorded on photographic plates taken with the Bruce Astrograph of the Boyden Station of the Harvard Observatory in Arequipa, Peru. She identified 1,777 variable stars. In 1908, Leavitt published the results of her studies in the Annals of the Astronomical Observatory of Harvard College, noting that the brighter variables had the longer period.<ref name="1777Variables" />

File:HSLeavittHSCr13Fig2 1912.jpg

In a 1912 paper, Leavitt examined the relationship between the periods and the brightness of a sample of 25 of the Cepheid variables in the Small Magellanic Cloud. The paper was communicated and signed by Edward Pickering, but the first sentence indicates that it was "prepared by Miss Leavitt".<ref name="VariableStars" /> Leavitt made a graph of magnitude versus logarithm of period and determined that, in her own words,

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Leavitt then used the simplifying assumption that all of the Cepheids within the Small Magellanic Cloud were at approximately the same distance, so that their intrinsic brightness could be deduced from their apparent brightness as registered in the photographic plates, up to a scale factor, since the distance to the Magellanic Clouds was as yet unknown. She expressed the hope that parallaxes to some Cepheids would be measured. This soon occurred,<ref name=PLhistory /> allowing her period-luminosity scale to be calibrated.<ref name="VariableStars" /> This reasoning allowed Leavitt to establish that the logarithm of the period is linearly related to the logarithm of the star's average intrinsic optical luminosity (the amount of power radiated by the star in the visible spectrum).<ref>Template:Cite journal</ref>

Henrietta found that Delta Cepheus was the "standard candle" that had long been sought by astronomers. A similar five-day cepheid variable in the Small Magellanic cloud she found to be about one ten-thousandth as bright as our five-day Delta Cepheus. Using the inverse-square law, she calculated that the Small Magellanic Cloud was 100 times as far away as Delta Cepheus, thus having discovered a way to calculate the distance to another galaxy.

Leavitt also developed, and continued to refine, the Harvard Standard for photographic measurements, a logarithmic scale that orders stars by brightness greater than 17 magnitudes. She initially analyzed 299 plates from 13 telescopes to construct her scale, which was accepted by the International Committee of Photographic Magnitudes in 1913.<ref>Template:Cite web</ref>

In 1913, Leavitt discovered T Pyxidis, a recurrent nova in the constellation Pyxis, and one of the most frequent recurrent novae in the sky, with eruptions observed in 1890, 1902, 1920, 1944, 1967, and 2011.<ref>Template:Cite journal</ref>

Leavitt was a member of Phi Beta Kappa, the American Association of University Women, the American Astronomical and Astrophysical Society, the American Association for the Advancement of Science, and an honorary member of the American Association of Variable Star Observers. In 1921, when Harlow Shapley took over as director of the observatory, Leavitt was made head of stellar photometry. By the end of that year, she had died from cancer.<ref name="Johnson" />Template:Rp

A picture of Leavitt in 1921

According to science writer Jeremy Bernstein, "variable stars had been of interest for years, but when she was studying those plates, I doubt Pickering thought she would make a significant discovery—one that would eventually change astronomy."<ref>Template:Cite news</ref> The period–luminosity relationship for Cepheids, now known as "Leavitt's law", made the stars the first "standard candle" in astronomy, allowing scientists to compute the distances to stars too remote for stellar parallax observations to be useful. One year after Leavitt reported her results, Ejnar Hertzsprung determined the distance of several Cepheids in the Milky Way; with this calibration, the distance to any Cepheid could be determined accurately.<ref name=PLhistory>Template:Cite journal</ref>

Cepheids were soon detected in other galaxies, such as Andromeda (notably by Edwin Hubble in 1923–24), and they became an important part of the evidence that "spiral nebulae" are independent galaxies located far outside of the Milky Way. Thus, Leavitt's discovery would forever change humanity's picture of the universe, as it prompted Harlow Shapley to move the Sun from the center of the galaxy in the "Great Debate" and Edwin Hubble to move the Milky Way galaxy from the center of the universe.

Leavitt's discovery of an accurate way to measure distances on an intergalactic scale paved the way for modern astronomy's understanding of the structure and scale of the universe.<ref name="carnegiescience" /> The accomplishments of Edwin Hubble, the American astronomer who established that the universe is expanding, were also made possible by Leavitt's groundbreaking research.

Hubble often said that Leavitt deserved the Nobel Prize for her work.<ref>Template:Cite journal</ref> Mathematician Gösta Mittag-Leffler, a member of the Swedish Academy of Sciences, tried to nominate her for that prize in 1924, only to learn that she had died of cancer three years earlier.<ref name="Singh"/><ref name="Johnson" />Template:Rp (The Nobel Prize is not awarded posthumously.)

Cepheid variables allow astronomers to measure distances up to about 60 million light-years. Even greater distances can now be measured by using the theoretical maximum mass of white dwarfs calculated by Subrahmanyan Chandrasekhar.<ref>Expandierende Raumzeit und Dunkle Energie, de:Josef M. Gaßner, about Henrietta Leavitt, March 15, 2016.</ref><ref>Expandierende Raumzeit und Dunkle Energie, de:Josef M. Gaßner, about Subrahmanyan Chandrasekhar, March 15, 2016.</ref>

File:Henrietta Swan Leavitt marker.agr.jpg

Leavitt's scientific work at Harvard was frequently interrupted by illness and family obligations. Her early death at the age of 53, from stomach cancer,<ref>Template:Cite web</ref> was seen as a tragedy by her colleagues for reasons that went beyond her scientific achievements. Her colleague Solon I. Bailey wrote in his obituary for Leavitt that "she had the happy, joyful, faculty of appreciating all that was worthy and lovable in others, and was possessed of a nature so full of sunshine that, to her, all of life became beautiful and full of meaning."<ref name="Johnson" />Template:Rp

She was buried in the Leavitt family plot at Cambridge Cemetery in Cambridge, Massachusetts."Sitting at the top of a gentle hill", writes George Johnson in his biography of Leavitt, "the spot is marked by a tall hexagonal monument, on top of which sits a globe cradled on a draped marble pedestal. Her uncle Erasmus Darwin Leavitt and his family also are buried there, along with other Leavitts." A plaque memorializing Henrietta and her two siblings, Mira and Roswell, is mounted on one side of the monument. Nearby are the graves of Henry and William James.<ref name="Johnson" />Template:Rp

• The asteroid 5383 Leavitt and the crater Leavitt on the Moon are named after her to honor deaf men and women who have worked as astronomers.<ref>Template:Cite book</ref><ref>Template:Cite web</ref>
• One of the ASAS-SN telescopes, located in the McDonald Observatory in Texas, is named in her honor.<ref>Template:Cite tweet</ref>

Anna Von Mertens designed a book-based work of art, Attention Is Discovery: The Life and Legacy of Henrietta Leavitt. The pages weave Von Merton's artistic interpretations of Leavitt's work with photos and descriptions of the work of Leavitt and her fellow Harvard Computers.<ref>Template:Cite web</ref>

George Johnson wrote a 2005 biography, Miss Leavitt's Stars, which showcases the triumphs of women's progress in science through the story of Leavitt.<ref>Template:Cite web</ref>

Robert Burleigh wrote the 2013 biography Look Up!: Henrietta Leavitt, Pioneering Woman Astronomer for a younger audience. It is written for four- to eight-year-olds.<ref>Template:Cite book</ref>

Lauren Gunderson wrote a 2015 play, Silent Sky, which followed Leavitt's journey from her acceptance at Harvard to her death.<ref>Template:Cite web</ref>

Theo Strassell wrote a play, The Troubling Things We Do, an absurdist piece that details the life of Henrietta Leavitt, among other scientists from her era.<ref>Template:Cite book</ref>

Dava Sobel's book The Glass Universe chronicles the work of the women analyzing images taken of the stars at the Harvard College Observatory.<ref>Template:Cite web</ref>

The BBC included Leavitt in their Missed Genius series designed to celebrate individuals from diverse backgrounds who have had a profound effect on our world.<ref name=mcneill />

Central Square Theater commissioned a play, The Women Who Mapped The Stars, by Joyce Van Dyke, as part of the Brit D'Arbeloff Women in Science Production Series, staged by the Nora Theatre Company. The play features Leavitt's story, among others.<ref>Template:Cite web</ref>

• List of female scientists
• List of deaf people
• Women in science
• Timeline of women in science
• Human computer
• Cepheids

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• Korneck, Helena (October 1982). "Frauen in der Astronomie". Sterne und Weltraum (in German). No. 10. pp. 412–414. ISSN 0039-1263.
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• Women in Astronomy Bibliography from the Astronomical Society of the Pacific
• Periods of 25 Variable Stars in the Small Magellanic Cloud. Edward C. Pickering, March 3, 1912; credits Leavitt.
• Henrietta Swan Leavitt: a Star of the Brightest Magnitude ACS/Women Chemists Committee's biography with several links
• Henrietta Swan Leavitt, Tim Hunter (astronomer), The Grasslands Observatory
• Henrietta Swan Leavitt's genealogyTemplate:Dead link
• Henrietta Swan Leavitt – Lady of Luminosity from the Woman Astronomer website
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