Actuator capable of performing rational motion

What is claimed is: 1. An actuator comprising: a magnet structure including a plurality of first magnets whose each magnetic pole surface has an N pole and a plurality of second magnets whose each magnetic pole surface has an S pole; and a circuit board including first, second, third, and fourth wirings and facing the magnetic pole surfaces of the respective first and second magnets through a gap, wherein the magnet structure includes first, second, third, and fourth areas, wherein the first and third areas are arranged in a first direction, wherein the second and fourth areas are arranged in the first direction, wherein the first and second areas are arranged in a second direction perpendicular to the first direction, wherein the third and fourth areas are arranged in the second direction, wherein when current is made to flow from one end of the first wiring to other end thereof, the current circulates in one direction at least partially on each of the first magnets positioned in the first and third areas, while it circulates in a direction opposite to the one direction at least partially on each of the second magnets positioned in the first and third areas, and wherein when current is made to flow from one end of the second wiring to other end thereof, the current circulates in the direction opposite to the one direction at least partially on each of the first magnets positioned in the second and fourth areas, while it circulates in the one direction at least partially on each of the second magnets positioned in the second and fourth areas, wherein when current is made to flow from one end of the third wiring to other end thereof, the current circulates in the one direction at least partially on each of the first magnets positioned in the first and second areas and also circulates in the direction opposite to the one direction at least partially on each of the second magnets positioned in the first and second areas, and wherein when current is made to flow from one end of the fourth wiring to other end thereof, the current circulates in the direction opposite to the one direction at least partially on each of the first magnets positioned in the third and fourth areas and also circulates in the one direction at least partially on each of the second magnets positioned in the third and fourth areas. 2. The actuator as claimed in claim 1 , wherein the magnetic pole surfaces of the plurality of the first and second magnets is positioned on a first plane extending in the first and second directions, and wherein the magnet structure includes: a first array part in which the first and second magnets are alternately arranged in the first direction over the first and third areas; a second array part in which the first and second magnets are alternately arranged in the first direction over the second and fourth areas; a third array part in which the first and second magnets are alternately arranged in the second direction over the first and second areas; and a fourth array part in which the first and second magnets are alternately arranged in the second direction over the third and fourth areas. 3. The actuator as claimed in claim 2 , wherein the first and second wirings are provided on a second plane parallel to the first plane, and wherein the third and fourth wirings are provided on a third plane parallel to the first plane and different from the second plane. 4. The actuator as claimed in claim 2 , wherein the first to fourth wirings are provided on a third plane parallel to the first plane. 5. The actuator as claimed in claim 2 , wherein the circuit board further includes fifth and sixth wirings, wherein the fifth wiring crosses, in the second direction, at least partially each of the first and second magnets included in the first and second array parts, and wherein the sixth wiring crosses, in the first direction, at least partially each of the first and second magnets included in the third and fourth array parts. 6. The actuator as claimed in claim 5 , wherein the fifth wiring includes a first wiring part that crosses each of the first magnets in the second direction and a second wiring part that crosses each of the second magnets in the second direction, wherein the sixth wiring includes a third wiring part that crosses each of the first magnets in the first direction and a fourth wiring part that crosses each of the second magnets in the first direction, wherein current is made to flow in mutually opposite directions in the first wiring part and second wiring part, and wherein current is made to flow in mutually opposite directions in the third wiring part and fourth wiring part. 7. The actuator as claimed in claim 6 , wherein the fifth wiring is provided on a fourth plane parallel to the first plane, and wherein the six wiring is provided on a fifth plane parallel to the first plane and different from the fourth plane. 8. The actuator as claimed in claim 5 , wherein the fifth wiring includes a first part that covers the first and third areas and a second part that covers the second and fourth areas, and wherein current is made to flow in the first and second parts independently of each other. 9. The actuator as claimed in claim 2 , wherein the circuit board further includes a seventh wiring, wherein the seventh wiring includes a fifth wiring part that circles at least partially on each of the first magnets positioned in the first to fourth areas and a sixth wiring part that circles at least partially on each of the second magnets positioned in the first to fourth areas, and wherein currents that circulate in opposite directions are made to flow in the fifth and sixth wiring parts. 10. The actuator as claimed in claim 2 , wherein the circuit board further includes an eighth wiring, wherein the eighth wiring includes a seventh wiring part that crosses each of the first magnets in the second direction and an eighth wiring part that crosses each of the second magnets in the second direction, wherein in a part of the eighth wiring that covers the first and third areas, opposite-direction currents are made to flow in the seventh and eighth wiring parts, wherein in a part of the eighth wiring that covers the second and fourth areas, opposite-direction currents are made to flow in the seventh and eighth wiring parts, wherein in a part of the seventh wiring part that covers the first and third areas and in a part thereof that covers the second and fourth areas, opposite-direction currents are made to flow, and wherein in a part of the eighth wiring part that covers the first and third areas and in a part thereof that covers the second and fourth areas, opposite-direction currents are made to flow. 11. The actuator as claimed in claim 1 , wherein a size of the first and second magnets in the first and second directions is 1 mm or less. 12. The actuator as claimed in claim 1 , wherein a thickness of the magnet structure in a third direction perpendicular to the first and second directions is 1 mm or less. 13. The actuator as claimed in claim 1 , further comprising a support substrate for supporting the magnet structure, wherein the thermal diffusivity of the support substrate is lower than that of the magnet structure. 14. The actuator as claimed in claim 1 , wherein an image sensor is fixed to one of the circuit board and magnet structure. 15. An actuator comprising: a magnet structure including a plurality of first magnets whose each magnetic pole surface has an N pole and a plurality of second magnets whose each magnetic pole surface has an S pole; and a circuit