Optical scanning device including waveguide array

What is claimed is: 1. An optical scanning device comprising: a waveguide array including a plurality of waveguide elements arranged in a first direction, each of the plurality of waveguide elements including an optical waveguide layer through which light propagates in a second direction intersecting the first direction, the waveguide array being configured to emit light from the plurality of waveguide elements in a third direction that intersects a virtual plane parallel to the first and second directions; a first adjusting element that changes a refractive index and/or a thickness of the optical waveguide layer in each of the waveguide elements to change a second direction component of a wave vector of the light emitted in the third direction from the waveguide array; a plurality of phase shifters connected to the respective waveguide elements, each of the plurality of phase shifters including a waveguide that is connected to the optical waveguide layer in corresponding one of the plurality of waveguide elements directly or through another waveguide; a second adjusting element that changes phase differences between light beams propagating from the plurality of phase shifters to the plurality of waveguide elements to change a first direction component of the wave vector of the light emitted in the third direction from the waveguide array; and a control circuit that controls the first adjusting element and the second adjusting element to scan a target region with the light emitted from the waveguide array, wherein each of the waveguide elements further includes a first mirror extending in the second direction and having a reflecting surface that intersects the third direction and a second mirror extending in the second direction and having a reflecting surface that faces the reflecting surface of the first mirror, wherein, in each of the waveguide elements, the optical waveguide layer is located between the first mirror and the second mirror, wherein, in each of the waveguide elements, the width of the first mirror in the first direction and/or the width of the second mirror in the first direction is greater than the width of the optical waveguide layer in the first direction, wherein, in each of the waveguide elements, the first mirror has a higher light transmittance than that of the second mirror and allows part of the light propagating through the optical waveguide layer to be emitted to the outside of the optical waveguide layer, wherein a speed of scanning in a first one of the first and second directions is higher than the speed of scanning in a second one of the first and second directions, and wherein, when the light emitted from the waveguide array forms a light spot on a virtual plane that is spaced apart from the waveguide array and that is parallel to the first and second directions, the control circuit causes the light spot to move in the first and second directions such that a distance of movement of the light spot from start to finish of the scanning of the target region is greater in the first one of the first and second directions than in the second one of the first and second directions. 2. The optical scanning device according to claim 1 , wherein the speed of scanning in the second direction is higher than the speed of scanning in the first direction, wherein the control circuit repeats an operation including moving the light spot a first distance in a first one of the second direction and a direction opposite to the second direction, moving the light spot a second distance shorter than the first distance in one of the first direction and a direction opposite to the first direction, moving the light spot the first distance in a second one of the second direction and the direction opposite to the second direction, and moving the light spot the second distance in the one of the first direction and the direction opposite to the first direction, the control circuit repeating the operation at least two times from start to finish of the scanning. 3. The optical scanning device according to claim 1 , wherein the speed of scanning in the first direction is higher that the speed of scanning in the second direction, and wherein the control circuit repeats an operation including moving the light spot a first distance in a first one of the first direction and a direction opposite to the first direction, moving the light spot a second distance shorter than the first distance in one of the second direction and a direction opposite to the second direction, moving the light spot the first distance in a second one of the first direction and the direction opposite to the first direction, and moving the light spot the second distance in the one of the second direction and the direction opposite to the second direction, the control circuit repeating the operation at least two times from start to finish of the scanning. 4. The optical scanning device according to claim 1 , wherein the light emitted from the waveguide array includes zeroth-order and ±first-order diffracted light beams, and the control circuit performs the scanning of the target region with the zeroth-order and ±first-order diffracted light beams. 5. The optical scanning device according to claim 1 , wherein the speed of scanning in the second direction is higher than the speed of scanning in the first direction, and wherein the control circuit repeats an operation including moving the light spot a first distance in a first one of the second direction and a direction opposite to the second direction and simultaneously moving the light spot a second distance shorter than the first distance in one of the first direction and a direction opposite to the first direction, and moving the light spot the first distance in a second one of the second direction and the direction opposite to the second direction and simultaneously moving the light spot the second distance in the one of the first direction and the direction opposite to the first direction, the control circuit repeating the operation at least two times from start to finish of the scanning. 6. The optical scanning device according to claim 1 , wherein the speed of scanning in the first direction is higher than the speed of scanning in the second direction, and wherein the control circuit repeats an operation including moving the light spot a first distance in a first one of the first direction and a direction opposite to the first direction and simultaneously moving the light spot a second distance shorter than the first distance in one of the second direction and a direction opposite to the second direction, and moving the light spot the first distance in a second one of the first direction and the direction opposite to the first direction and simultaneously moving the light spot the second distance in the one of the second direction and the direction opposite to the second direction, the control circuit repeating the operation at least two times from start to finish of the scanning. 7. The optical scanning device according to claim 1 , wherein the control circuit includes a clock signal generator and controls operation timings of the first and second adjusting elements using the clock signal generator. 8. The optical scanning device according to claim 1 , wherein the optical waveguide layer in each of the waveguide elements contains a material whose refractive index for the light propagating through the optical waveguide layer is changed when a voltage is applied, wherein the first adjusting element includes at least one pair of first electrodes sandwiching at least one optical waveguide layer in the waveguide elements and changes the refractive index of the at least one optical waveg