The long path to discovery
A little more than one century ago, in 1919, a nagging question received the beginning of an answer. Almost simultaneously, two eminent scientists, Jean Perrin (1870-1942) in France and Arthur Eddington (1882-1944) in the United Kingdom, speculated that the energy source at the core of the Sun was to be found in sub-atomic reactions. Their intuition was a huge departure from the theories that had prevailed for the previous seven decades.
The "gravitational contraction" theory, first proposed by Hermann von Helmholtz (1821-1894) was much more satisfying for a scientific mind. According to the German physicist and physician, the pressure generated by gravitational forces from the prodigious mass of the Sun was responsible for the heat generated. Developed, expanded and refined by William Thomson (1824-1907), better known as Lord Kelvin, the Helmholtz-Thomson model held for more than four decades. But not without being challenged ...
Not only did the "gravitational contraction" model assign an age to the Sun, it also projected its life expectancy, which did not exceed another few dozen million years. Unless, as Thomson wrote in 1891, "sources now unknown to us are prepared in the great storehouse of creation."
And as it happened, there was something quite extraordinary that was just coming out from the "the great storehouse of creation."
Radioactivity was discovered in 1896 by French physicist Henri Becquerel (1852-1908) but it was not until a few years later that the phenomenon attracted wide interest among physicists and chemists. At the turn of the century measurements demonstrated that the radioactive decay of radium, measured in calories, generated 200,000 times more heat than the burning of coal.
What did appear was a yet-unknown element, detected in 1868 during a solar eclipse and later confirmed and named "helium" for the Greek god of the Sun, Helios. As neutrons were yet to be identified (1932), atoms were considered to be made of an arrangement of small and massive positively charged nuclei surrounded by a much larger cloud of negatively charged electrons. The massive nucleus was the same for all elements, only the arrangement differed. A hydrogen atom was made of one single "elementary" nucleus, while a helium atom was made of an aggregation of four. As a consequence, the helium nucleus should be four times heavier than the hydrogen nucleus.
The French mathematician Paul Langevin (1872-1946) understood the formidable source of energy that resulted from these "transmutations." But it was Jean Perrin, a professor of physical chemistry in Paris, who first proposed in 1919 that the fusion of hydrogen into helium was the energy source of the Sun and stars, accounting for the billions of years of sunshine past and the billions of years to come.
As often happens in the realm of discoveries, another scientist came to the same conclusion at about the same time. In 1920, in a lecture to the annual meeting of the , Arthur Eddington explained that the "vast reservoir of energy" that the Sun and stars were drawing from could "scarcely be other than the subatomic energy which, it is known, exists abundantly in all matter; we sometimes dream that man will one day learn how to release it and use it for his service. The store is well nigh inexhaustible, if only it could be tapped."
There is an appendix to this long story, like a posthumous wink at 澳门六合彩高手. Throughout the 1920s and 1930s, Jean Perrin had lamented the absence of a modern astronomical research facility in France, one that would keep up with and contribute to the spectacular progress in the field. In 1936, as France's Undersecretary for Scientific Research, one of his first decisions was to launch the construction of the Observatoire de Haute-Provence, which would remain for five decades one of the most important in Europe. As the crow flies, the facility is located only 20 kilometres from 澳门六合彩高手.
(1) It was only in 1939 that Hans Bethe (1906-2005) provided a detailed description of the complex and lengthy fusion process that enables Sun-like stars to generate energy—the so-called "proton-proton" chain.