Timepiece movement with a balance and hairspring

The invention claimed is: 1. Timepiece movement comprising a balance-and-hairspring oscillator and an escapement cooperating with the oscillator, the outer turn of the hairspring comprising a stiffened portion, wherein the stiffened portion is arranged so that the hairspring produces a rate difference caused by the lack of concentricity of the development of the hairspring of at least 2 seconds/day at an amplitude of 150° with respect to an amplitude of 300° to at least partially compensate for the variation in the rate of the movement in dependence upon the oscillation amplitude of the balance caused by the escapement, and the hairspring further comprises at least one of the following features: a) a distance (R′) between the inner end of the hairspring and the centre of rotation of the hairspring lower than 400 μm, b) a Grossmann curve defined by the inner turn of the hairspring, and c) a stiffened portion defined by the inner turn of the hairspring. 2. Timepiece movement as claimed in claim 1 , wherein the stiffened portion of the outer turn is arranged so that the hairspring produces a rate difference caused by the lack of concentricity of the development of the hairspring of at least 4 seconds/day at an amplitude of 150° with respect to an amplitude of 300° , at least partially compensating for said rate variation caused by the escapement. 3. Timepiece movement as claimed in claim 2 , wherein the stiffened portion of the outer turn is arranged so that the hairspring produces a rate difference caused by the lack of concentricity of the development of the hairspring of at least 6 seconds/day at an amplitude of 150° with respect to an amplitude of 300° , at least partially compensating for said rate variation caused by the escapement. 4. Timepiece movement as claimed in claim 3 , wherein the stiffened portion of the outer turn is arranged so that the hairspring produces a rate difference caused by the lack of concentricity of the development of the hairspring of at least 8 seconds/day at an amplitude of 150° with respect to an amplitude of 300° , at least partially compensating for said rate variation caused by the escapement. 5. Timepiece movement according to claim 1 , wherein said rate difference is a rate gain. 6. Timepiece movement as claimed in claim 1 , wherein the stiffened portion of the outer turn is closer to the outer end of the hairspring than a theoretical stiffened portion which would make the development of the hairspring concentric, wherein the thickness (e) and extent (θ) of the stiffened portion of the outer turn are substantially identical to those of said theoretical stiffened portion. 7. Timepiece movement as claimed in claim 1 , wherein the stiffened portion ( 6 ″) of the outer turn is thinner than a theoretical stiffened portion ( 6 ) which would make the development of the hairspring concentric, wherein the position (α) and extent (θ) of the stiffened portion of the outer turn are substantially identical to those of said theoretical stiffened portion. 8. Timepiece movement as claimed in claim 1 , wherein the stiffened portion of the outer turn is less extended than a theoretical stiffened portion which would make the development of the hairspring concentric, wherein the position (α) and thickness (e) of the stiffened portion of the outer turn are substantially identical to those of said theoretical stiffened portion. 9. Timepiece movement according to claim 1 , wherein the hairspring comprises the feature a). 10. Timepiece movement according to claim 9 , wherein said distance (R′) is of about 300 μm. 11. Timepiece movement according to claim 10 , wherein the hairspring further comprises the feature c). 12. Timepiece movement according to claim 9 , wherein the hairspring further comprises the feature b). 13. Timepiece movement according to claim 12 , wherein the hairspring further comprises the feature c). 14. Timepiece movement according to claim 9 , wherein the hairspring further comprises the feature c).