High-temperature all-metal induction furnace, intended to melt samples of minerals and/or rocks for extracting gases under ultra-high vacuum

1 . A high-temperature ultrahigh-vacuum furnace, intended for the extraction of noble gases present in samples of minerals and/or rocks, comprising: a metal chamber that is gastight, in particular to atmospheric gases, comprising a connection opening for connecting to a purification line for purifying the gases released in the chamber and/or to a gravity feed device for supplying a sample and, a connection opening for connecting to a pump suitable for creating the ultrahigh vacuum inside the chamber, a crucible made of electrically conductive material, suitable for containing at least one sample of minerals and/or rocks, a support made of electrically insulating material, resting on the lower portion of the metal chamber, and supporting the crucible in the chamber, at least one induction coil, powered from outside of the chamber through at least one insulated bushing passing through a wall of the chamber, and arranged around the crucible, a tube made of electrically insulating material, resting on the lower portion of the metal chamber, arranged between the induction coil and the crucible supported by the support. 2 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , comprising a heat-transfer fluid cooling circuit integrated into the, lower and upper walls of the chamber. 3 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the metal chamber consists of cylinders assembled together by welding and fastening flanges. 4 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 3 , wherein the cylinders and fastening flanges being made of stainless steel. 5 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the distance between the induction coil and each of the lower, upper and lateral inner walls is at least equal to 10 mm. 6 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the conductive crucible is made of a material selected from tantalum (Ta), molybdenum (Mo), platinum (Pt), iron (Fe). 7 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the electrically insulating support is made of a material selected from a ceramic, quartz. 8 . The high-temperature ultrahigh-vacuum furnace as claimed claim 1 , wherein the electrically insulating tube is made of a material selected from quartz, glass-ceramic, vitreous carbon. 9 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the connection opening is connected to a bypass part for connecting the upper portion of the chamber both to the gas purification line and to a storage carousel as a gravity feed device for supplying a sample. 10 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the lower end of the electrically insulating support is housed in a centering guide made in the lower inner wall of the chamber. 11 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the lower end of the electrically insulating tube is housed in a centering guide made in the lower inner wall of the chamber. 12 . The high-temperature ultrahigh-vacuum furnace as claimed in claim 1 , wherein the upper end of the electrically insulating tube is arranged as close as possible to the upper inner wall of the chamber.