Magnetic resonance imaging apparatus and magnetic resonance imaging method

What is claimed is: 1. A magnetic resonance imaging apparatus comprising: a calculation unit configured to provide a calculated inversion time for an imaging scan by analyzing frames of image data or magnetic resonance signals acquired from an object, the frames being acquired in response to a plurality of inversion times which are different from each other; and an imaging unit configured to perform the imaging scan using the calculated inversion time, wherein the calculation unit is further configured to calculate, using the frames, a phase based on the image data or the magnetic resonance signal corresponding to a first inversion time, perform phase correction of the image data or the magnetic resonance signal corresponding to a second inversion time, the phase correction being performed using the calculated phase, and determine the calculated inversion time based on a curve obtained by applying curve fitting to the frames after performing the phase correction. 2. A magnetic resonance imaging apparatus of claim 1 , wherein said calculation unit is further configured to determine the calculated inversion time as the inversion time for the imaging which is given when the curve becomes zero. 3. A magnetic resonance imaging apparatus of claim 1 , further comprising a substance specifying unit configured to enable a display unit to display at least one of a T1 value obtained through the curve fitting, the inversion time given when the curve becomes zero, a shape of the curve, and information indicating a substance estimated based on the T1 value. 4. A magnetic resonance imaging apparatus of claim 1 , wherein said imaging unit is configured to perform cardiac delayed enhancement imaging or non-enhancement blood flow imaging. 5. A magnetic resonance imaging apparatus of claim 2 , wherein said calculation unit is further configured to determine a plurality of inversion times corresponding to when values of curves fitted to image data or magnetic resonance signal in regions of interest become zero respectively and to adopt a longest inversion time out of the plurality of inversion times as the calculated inversion time for the imaging. 6. A magnetic resonance imaging apparatus of claim 2 , wherein said imaging unit is configured to sequentially perform both the imaging and acquisition of the frames obtained in response to the inversion times. 7. A magnetic resonance imaging apparatus of claim 2 , wherein said calculation unit is further configured to perform the curve fitting by using real-part signals of frames of image data obtained after the phase correction and corresponding to the inversion times or real-part signals of magnetic resonance signals obtained through local excitation, after the phase correction, and corresponding to the inversion times. 8. A magnetic resonance imaging apparatus of claim 2 , wherein said calculation unit is further configured to perform the phase correction with absolute-value image signals corresponding to the inversion times to perform the curve fitting using image signals obtained by correcting polarities of absolute-value image signals obtained after the phase correction. 9. A magnetic resonance imaging apparatus comprising: a calculation unit configured to provide a calculated inversion time for an imaging scan by analyzing frames of image data acquired from an object, the frames being acquired in response to inversion times which are different with each other; and an imaging unit configured to perform the imaging scan using the calculated inversion time, wherein the calculation unit is further configured to obtain a first curve by the curve fitting with first image signals obtained by inverting polarities of absolute-value image signals each acquired in response to an inversion time shorter than an inversion time corresponding to a minimum value of absolute-value image signals acquired in response to the inversion times, obtain a second curve by the curve fitting with second image signals obtained by inverting a polarity of an absolute-value image signal corresponding to the minimum value and respective polarities of the absolute value image signals each obtained responsive to the inversion time shorter than the inversion time corresponding to the minimum value, and determine the calculated inversion time from a curve adopted based on a degree of approximation of the curve fitting. 10. A magnetic resonance imaging apparatus comprising: a calculation unit configured to calculate a formula of a curve obtained by curve fitting applied to frames of image data or magnetic resonance signals acquired responsively to inversion times which are different with each other and set based on a recovery method; and a substance specifying unit configured to enable a display unit to display at least one of a T1 value obtained through the curve fitting, the inversion time given when the curve becomes zero, a shape of the curve, and information indicating a substance estimated based on the T1 value. 11. A magnetic resonance imaging method comprising: determining a calculated inversion time for an imaging scan by analyzing frames of image data or magnetic resonance signals acquired from an object, the frames being acquired in response to inversion times which are different with each other; and performing the imaging scan using the calculated inversion time, wherein the determining a calculated inversion time comprises: calculating, using the frames, a phase based on the image data or the magnetic resonance signals corresponding to a first inversion time, performing phase correction of image data or magnetic resonance signal corresponding to a second inversion time using the phase, and determining the calculated inversion time based on a curve obtained by applying curve fitting to the frames of the image data after the phase correction or the magnetic resonance signals after the phase correction.