Magnetic resonance imaging apparatus

1 . A magnetic resonance imaging apparatus, comprising: a gradient magnetic field application unit that applies two or more gradient magnetic field pulses composed of waveforms different from each other according to the spatial position on the gradient magnetic field application axis in an imaging region, wherein the gradient magnetic field application unit applies gradient magnetic field pulses with two or more different waveforms and applies gradient magnetic field pulses composed of one predetermined waveform. 2 . The magnetic resonance imaging apparatus according to claim 1 , wherein the gradient magnetic field application unit applies gradient magnetic field pulses so as to have different waveforms according to the spatial position on the gradient magnetic field application axis in the imaging region, and wherein the waveforms are determined by a variation amount in the time direction of magnetic field strength per unit distance. 3 . The magnetic resonance imaging apparatus according to claim 2 , wherein the gradient magnetic field pulses are trapezoidal waves, and wherein the gradient magnetic field application unit applies gradient magnetic field pulses having different shapes in the rising and falling portions according to the spatial position on the gradient magnetic field application axis. 4 . The magnetic resonance imaging apparatus according to claim 2 , wherein the gradient magnetic field application unit comprises: a pair of gradient magnetic field coils; and a drive unit that supplies driving electric currents, whose integration values to an arbitrary time are different, to the pair of gradient magnetic field coils respectively. 5 . The magnetic resonance imaging apparatus according to claim 4 , wherein the drive unit supplies the driving electric currents so as to have a period when only one of the pair of gradient magnetic field coils is driven. 6 . The magnetic resonance imaging apparatus according to claim 4 , wherein the drive unit comprises: a signal generation supply unit; and a pair of gradient magnetic field power sources, wherein the signal generation supply unit generates waveform signals instructing to apply gradient magnetic field pulses according to the predetermined pulse sequence and supplies the said waveform signals to each of the gradient magnetic field power sources so that integration values to an arbitrary time are different, and wherein the pair of gradient magnetic field power sources is connected to the pair of the gradient magnetic field coils respectively to supply driving electric currents to the said gradient magnetic field coils according to the waveform signals. 7 . The magnetic resonance imaging apparatus according to claim 6 , wherein the signal generation supply unit supplies the generated waveform signals to each of the gradient magnetic field power sources at different timings. 8 . The magnetic resonance imaging apparatus according to claim 6 , wherein the signal generation supply unit changes shapes of the generated waveform signals and supplies them to each of the gradient magnetic field power sources. 9 . The magnetic resonance imaging apparatus according to claim 4 , wherein the drive unit comprises: a signal generation supply unit; gradient magnetic field power sources; and a delay circuit, wherein the signal generation supply unit generates waveform signals instructing to apply gradient magnetic field pulses according to the predetermined pulse sequence and supplies them to the gradient magnetic field power sources, wherein the gradient magnetic field power sources supply driving electric currents to one of the pair of gradient magnetic field coils according to the waveform signal, and wherein the delay circuit delays the driving electric current supplied to the one gradient magnetic field coil by the gradient magnetic field power sources to supply the driving electric current to the other gradient magnetic field coil. 10 . The magnetic resonance imaging apparatus according to claim 4 , wherein the gradient magnetic field coils are respectively provided in each axis direction in pairs, and wherein, when frequency encoding gradient magnetic field pulses are applied, the drive unit supplies the driving electric currents to the pair of gradient magnetic field coils in the axis direction to apply the said frequency encoding gradient magnetic field pulses. 11 . The magnetic resonance imaging apparatus according to claim 9 , wherein a CR circuit, which functions as a low-pass filter and is composed of a resistance and a condenser, is used as the delay circuit.