Tête nucléaire océanique

As with all thermonuclear warheads, the explosive materials comprise three main elements: uranium, plutonium and tritium, all of which are of military grade. The highly enriched uranium 235 was produced at COGEMA's Pierrelatte plant and the highly enriched plutonium 239 at COGEMA's Marcoule plant. Both were produced before France definitively ceased uranium and plutonium production in 1997, the country having sufficient stocks for its present and future needs. Tritium is produced in the Célestin I and II reactors at CEA's Marcoule plant, which remains operational.

The TNO's yield (classified top secret) is, according to some sources, of the order of 100 kilotons of TNT (kt).^[5] The load used is said to be "robust":^[6] less optimized than the TN 75 (which has an estimated yield of 110 kt) but with improved reliability and service life. Its technology benefited from the final nuclear test campaign carried out in 1995-1996 at Moruroa, French Polynesia and its design was ultimately validated by the French nuclear defense simulation program carried out using the Laser Mégajoule, TERA-100 supercomputer and the Airix X-ray generator.^[7][8]

Since a French ballistic missile submarine is equipped 16 M51 missiles, each carrying at least 6 warheads, the theoretical potential of a salvo of 96 TNO (9,600 kt) would be equivalent to 640 Hiroshima atomic bombs (which had a power of around 15 kt).

The TNO's reentry body, a conical outer shell with high-performance thermal protection, has been optimized for the M51 missile's performance, and in particular ensures atmospheric reentry on very long-range trajectories with the required precision. It also features advanced stealth characteristics.

The information presented in this article can only be indicative because underlying data is classified by the French government.^[9]

• Force de frappe
• Force océanique stratégique
• Nuclear tests by France