Component for a timepiece movement

What is claimed is: 1. A pivot arbor for a timepiece movement comprising: a plurality of sections have different diameters, which define bearing surfaces and shoulders arranged between two end portions, and at least one metal pivot at at least one of said end portion, wherein said pivot has a conical shape, wherein the metal is a non-magnetic aluminium alloy so as to limit the sensitivity of the pivot to magnetic fields, wherein at least the outer surface of said pivot is deep-hardened to a predetermined depth relative to the core of the pivot arbor, and wherein the non-magnetic aluminium alloy is chosen from the group consisting of an aluminium-copper-lead alloy, an aluminium-silicon-magnesium-manganese alloy, and an aluminium-zinc-magnesium-copper alloy. 2. The pivot arbor according to claim 1 , wherein the predetermined depth represents between 5% and 40% of the total diameter (d) of the pivot. 3. The pivot arbor according to claim 1 , wherein the deep-hardened outer surface comprises diffused atoms of at least one chemical element. 4. The pivot arbor according to claim 1 , wherein the deep-hardened outer surface has a hardness of more than 600 HV. 5. The pivot arbor according to claim 1 , wherein said outer surface of said pivot has no hardening layer directly deposited on said outer surface. 6. The pivot arbor according to claim 1 , wherein at least the outer surface of said pivot is rolled. 7. The pivot arbor according to claim 1 , wherein the pivot arbor has two pivots. 8. A movement for a timepiece comprising a pivot arbor, wherein said pivot arbor comprises: a plurality of sections have different diameters, which define bearing surfaces and shoulders arranged between two end portions, and at least one metal pivot at at least one of said end portion, wherein said pivot has a conical shape, wherein the metal being a non-magnetic aluminium alloy so as to limit the sensitivity of the pivot to magnetic fields, wherein at least the outer surface of said pivot is deep-hardened to a predetermined depth relative to the core of the pivot arbor, and wherein the non-magnetic aluminium alloy is chosen from the group consisting of an aluminium-copper-lead alloy, an aluminium-silicon-magnesium-manganese alloy, and an aluminium-zinc-magnesium-copper alloy. 9. A movement for a timepiece wherein the movement comprises a balance staff, a pallet staff and/or an escape pinion comprising a pivot arbor comprising: a plurality of sections have different diameters, which define bearing surfaces and shoulders arranged between two end portions, and at least one metal pivot at at least one of said end portion, wherein said pivot has a conical shape, wherein the metal being a non-magnetic aluminium alloy so as to limit the sensitivity of the pivot to magnetic fields, wherein at least the outer surface of said pivot is deep-hardened to a predetermined depth relative to the core of the pivot arbor, and wherein the non-magnetic aluminium alloy is chosen from the group consisting of an aluminium-copper-lead alloy, an aluminium-silicon-magnesium-manganese alloy, and an aluminium-zinc-magnesium-copper alloy. 10. A method for fabricating a pivot arbor for a timepiece movement comprising the following steps: a) forming a plurality of sections have different diameters, which define bearing surfaces and shoulders arranged between two end portions, and at least one metal pivot at at least one of said end portion, wherein said pivot has a conical shape, wherein said metal being a non-magnetic aluminium alloy, to limit the sensitivity thereof to magnetic fields, wherein the non-magnetic aluminium alloy is chosen from the group consisting of an aluminium-copper-lead alloy, an aluminium-silicon-magnesium-manganese alloy, and an aluminium-zinc-magnesium-copper alloy; b) diffusing atoms by an ion implantation process to a predetermined depth in at least the outer surface of said pivot in order to deep-harden the pivot arbor in the main areas of stress while maintaining a high tenacity. 11. The method according to claim 10 , wherein the predetermined depth represents between 5% and 40% of the total diameter (d) of the pivot. 12. The method according to claim 10 , wherein the diffusion step comprises the diffusion of atoms of at least one chemical element. 13. The method according to claim 10 , wherein the method does not comprise any step of depositing a hardening layer directly on the outer surface of the pivot. 14. The method according to claim 10 , wherein the pivot is subjected to a rolling/polishing step after step b).