Switched reluctance motor

What is claimed is: 1. A switched reluctance motor comprising: a stator provided with a plurality of stator teeth as salient poles in a radial fashion with winding wire wound around each of the plurality of stator teeth; a rotor provided with a plurality of rotor teeth as salient poles in a radial fashion; a driving circuit configured to apply a current to the winding wire for each phase; and a control device configured to control the driving circuit, the control device being configured to perform: starting rising of a current to the winding wire of a stator tooth of a phase being a non-excitation target due to stop of energization to the winding wire at a time a relative distance in a rotational direction of the rotor between the stator tooth of the phase being the non-excitation target and a rotor tooth approaching the stator tooth of the phase being the non-excitation target in the rotational direction becomes not larger than a relative distance between a next rotor tooth preceding the rotor tooth in the rotational direction of the rotor and the stator tooth of the phase being the non-excitation target; and allowing the current applied to the winding wire of the stator tooth of the phase being an excitation target to fall at a time the stator tooth which becomes the excitation target due to the rising of the current and the rotor tooth approaching the stator tooth start opposing to each other in a radial direction and an overlap amount in the rotational direction of the rotor between the stator tooth and the rotor tooth opposing to each other becomes larger than a predetermined amount. 2. The switched reluctance motor according to claim 1 , wherein, the control device is configured to allow the current to circulate in a circuit of a phase regarding the winding wire in the driving circuit through the winding wire at a time the overlap amount is larger than the predetermined amount and an actual current value of the winding wire of the stator tooth being a current falling target is not larger than a threshold. 3. The switched reluctance motor according to claim 2 , wherein, the control device is configured to apply a negative voltage to the winding wire at a time the overlap amount is larger than the predetermined amount and the actual current value of the winding wire of the stator tooth being the current falling target is larger than the threshold. 4. The switched reluctance motor according to claim 1 , wherein a current value applied to the winding wire is set such that radial force of magnetic attractive force between the stator tooth and the rotor tooth is not larger than a target value. 5. The switched reluctance motor according to claim 2 , wherein a current value applied to the winding wire is set such that radial force of magnetic attractive force between the stator tooth and the rotor tooth is not larger than a target value. 6. The switched reluctance motor according to claim 3 , wherein a current value applied to the winding wire is set such that radial force of magnetic attractive force between the stator tooth and the rotor tooth is not larger than a target value. 7. A switched reluctance motor comprising: a stator provided with a plurality of stator teeth as salient poles in a radial fashion with winding wire wound around each of the plurality of stator teeth; a rotor provided with a plurality of rotor teeth as salient poles in a radial fashion; a driving circuit configured to apply a current to the winding wire for each phase; and a control device configured to control the driving circuit, the control device being configured to perform: starting rising of the current to the winding wire at a time a change amount of inductance of the winding wire with respect to a change amount of a rotational angle of the rotor changes from a negative value to a positive value; and controlling the current applied to the winding wire such that a product of the change amount of the inductance of the winding wire with respect to the change amount of the rotational angle of the rotor and a rotational speed of the rotor is not smaller than a predetermined value and radial force of magnetic attractive force between a stator tooth and a rotor tooth is not larger than a target value.