Ada saw a beautiful future in technology.

Lady Ada Lovelace

Lady Ada Lovelace

Ada Diamonds is named in honor of August Ada King, Countess of Lovelace, an audacious and brilliant 19th century mathematician, mother, musician, socialite, and computer scientist who was affectionately known as the Enchantress of Numbers. Lady Lovelace was a preeminent scholar in London, who regularly collaborated with and challenged other luminaries such at Charles Babbage, Michael Faraday, Charles Dickens, and Charles Darwin. She is widely credited as the world's first computer programmer for her work to calculate Fibonacci Numbers on Babbage's Analytical Engine. 

Charles Babbage's Analytical Engine

Charles Babbage's Analytical Engine

In Babbage's computer, Ada saw the future. She saw the potential to not only improve mathematics and manufacturing, but to also create art, music, and advanced symbolic logic. In her letters, Ada wrote that "we may say most aptly that the Analytical Engine weaves algebraic patterns just as the Jacquard-loom weaves flowers and leaves” and that it “holds a position wholly its own ... A new, a vast, and a powerful language is developed for the future”. She later envisioned the ability to generate beautiful art with the computer: “Supposing, for instance, that the fundamental relations of pitched sounds in the science of harmony and of musical composition were susceptible of such expression and adaptations, the Engine might compose elaborate and scientific pieces of music of any degree of complexity or extent.”

The Enchantress of Numbers. The world's first computer programmer.

In a letter to Faraday, Babbage praised Ada as "that Enchantress who has thrown her magical spell around the most abstract of Sciences and has grasped it with a force that few masculine intellects (in our own country at least) could have exerted over it." In other correspondence, a male colleague praised Ada for "her mathematical powers, and of her peculiar capability—higher he said than of any one he knew, to prepare the descriptions connected with his calculating machine.” 

Daughter of a mathematician and a poet, the Honourable Augusta Ada Byron was born in 1815, in London. In 1835, she married William, 8th Baron King, and became Lady Ada King. In 1838, King became the 1st Earl of Lovelace and Ada became The Right Honourable The Countess of Lovelace. She signed herself “Augusta Ada Lovelace” or “AAL”, and now we just call her Ada Lovelace. She had three children with William: Byron, Anne Isabella and Ralph Gordon. Tragically, she died in 1852, at 36 years old, due to uterine cancer and complications arising from bloodletting by her physicians.

Ada Diamonds is honored to have such a powerful scholar, mother, and visionary as our namesake. Her vision of "poetic science" inspires us to create pure science, pure diamonds, and pure poetry every day. We are proud to support initiatives in her honor to advance computing and women in STEM such as the Lovelace Medal and Ada Lovelace Day as part of our Sixth Element Program. Read more about Lady Ada Lovelace.

The namesake of our signature Lavoisier Process and the father of modern chemistry.

Antoine Laurent Lavoisier

Antoine Laurent Lavoisier

Born in 1743, Antoine Lavoisier's was a French nobleman and brilliant chemist whose work in the 18th century earned him the moniker the Father of Modern Chemistry.

French chemist Antoine-Laurent Lavoisier (1743–94) at work in his laboratory. Hulton Archive/Getty Images

French chemist Antoine-Laurent Lavoisier (1743–94) at work in his laboratory.

Hulton Archive/Getty Images

During Lavoisier's attendance at College Marazin in Paris, he studied law but became fascinated with chemistry and physics. Despite being admitted to the bar, Lavoisier never practiced law but instead pursed scientific research that gained him an appointment to the Academy of Sciences in 1768 at 26 years of age.

Around this time, Lavoisier purchased stocks in the Ferme General (The General Farm) which accounted for the majority of his wealth and allowed him to pursue science full time.

In 1772, as part of his work on the Oxygen Theory Of Combustion, Lavoisier and other chemists bought a diamond by placing it inside a closed glass jar under a giant magnifying glass to focus the sun's rays and observed that the diamond burned and disappeared.

Lavoisier noted the overall weight of the jar was unchanged, even though all of the diamond had disappeared. This observation would later be part of the evidence convincing him that his law of mass conservation was correct.

Whether diamond or charcoal were burned by the giant lens, the same gas was produced – we now call it carbon dioxide. Lavoisier realized that diamond and charcoal are different forms of the same element.

He gave this element the name carbon, and introduced the idea of allotropy in chemical elements upon discovering that diamond is a crystalline form of carbon.

Lavoisier was also a dedicated public servant, using science to legislate for humanitarian purposes. During his lifetime, he advocated for a range of causes from more humane treatment of prisoners to public education in the sciences.

Sadly, during the French Revolution Antoine Lavoisier and 26 co-defendants were executed by guillotine. A year and a half after his death, Lavoisier was exonerated by the French Government.