Method for manufacturing acoustic wave device

What is claimed is: 1. A method for manufacturing an acoustic wave device comprising: forming a plurality of first reforming regions in a substrate along a first direction and a plurality of second reforming regions in the substrate along a second direction intersecting the first direction by irradiating the substrate with a laser beam under different conditions in the first direction and the second direction, the substrate including a piezoelectric substrate on which an InterDigital Transducer (IDT) is formed, a linear expansion coefficient in the first direction of the piezoelectric substrate being larger than a linear expansion coefficient in the second direction, the plurality of first reforming regions including a plurality of reforming regions to be formed in a thickness direction of the substrate, and the plurality of second reforming regions including a plurality of reforming regions to be formed in the thickness direction of the substrate; and cutting the substrate in the first direction and the second direction at the plurality of first and second reforming regions, respectively, wherein the forming the plurality of first reforming regions and the plurality of second reforming regions includes forming the plurality of first reforming regions and the plurality of second reforming regions so that a first upper reforming region located closest to an upper surface of the substrate among the plurality of reforming regions included in the plurality of first reforming regions is located away from the upper surface of the substrate than a second upper reforming region located closest to the upper surface of the substrate among the plurality of reforming regions included in the plurality of second reforming regions, a first lower reforming region located closest to a lower surface of the substrate among the plurality of reforming regions included in the plurality of first reforming regions is located away from the lower surface of the substrate than a second lower reforming region located closest to the lower surface of the substrate among the plurality of reforming regions included in the plurality of second reforming regions, and an interval between the second upper reforming region and the second lower reforming region is wider than an interval between the first upper reforming region and the first lower reforming region. 2. The method for manufacturing the acoustic wave device as claimed in claim 1 , wherein the cutting the substrate includes cutting the substrate in the first direction after cutting the substrate in the second direction. 3. The method for manufacturing the acoustic wave device as claimed in claim 1 , wherein the cutting the substrate includes breaking the substrate by pressing a blade to the substrate. 4. The method for manufacturing the acoustic wave device as claimed in claim 1 , wherein the piezoelectric substrate is a rotated Y-axis cut X-direction propagation lithium tantalite substrate or a rotated Y-axis cut X-direction propagation lithium niobate substrate, and the first direction is an X-axis direction of a crystal orientation of the lithium tantalite substrate or the lithium niobate substrate. 5. The method for manufacturing the acoustic wave device as claimed in claim 1 , wherein the substrate is a single substrate of the piezoelectric substrate, or a bonded substrate in which a lower surface of the piezoelectric substrate is bonded on an upper surface of a supporting substrate. 6. The method for manufacturing the acoustic wave device as claimed in claim 5 , wherein the supporting substrate is a sapphire substrate, a spinel substrate or a silicon substrate. 7. The method for manufacturing the acoustic wave device as claimed in claim 1 , wherein the substrate is a bonded substrate in which a lower surface of the piezoelectric substrate is bonded on an upper surface of a supporting substrate, and the forming the plurality of first reforming regions and the plurality of second reforming regions includes forming the plurality of first reforming regions and the plurality of second reforming regions only in the supporting substrate among the piezoelectric substrate and the supporting substrate. 8. The method for manufacturing the acoustic wave device as claimed in claim 7 , wherein the forming the plurality of first reforming regions and the plurality of second reforming regions includes forming the plurality of first reforming regions and the plurality of second reforming regions so that the first upper reforming region is located away from an upper surface of the supporting substrate than the second upper reforming region, and the first lower reforming region is located away from a lower surface of the supporting substrate than the second lower reforming region. 9. A method for manufacturing an acoustic wave device comprising: forming a plurality of first reforming regions in a substrate along a first direction and a plurality of second reforming regions in the substrate along a second direction intersecting the first direction by irradiating the substrate with a laser beam under different conditions in the first direction and the second direction, the substrate including a piezoelectric substrate on which an InterDigital Transducer (IDT) is formed, a linear expansion coefficient in the first direction of the piezoelectric substrate being larger than a linear expansion coefficient in the second direction, the plurality of first reforming regions including a plurality of reforming regions to be formed in a thickness direction of the substrate, and the plurality of second reforming regions including a plurality of reforming regions to be formed in the thickness direction of the substrate; and cutting the substrate in the first direction and the second direction at the plurality of first and second reforming regions, respectively, wherein the forming the plurality of first reforming regions and the plurality of second reforming regions includes forming the plurality of first reforming regions and the plurality of second reforming regions so that a first upper reforming region located closest to an upper surface of the substrate among the plurality of reforming regions included in the plurality of first reforming regions is located away from the upper surface of the substrate than a second upper reforming region located closest to the upper surface of the substrate among the plurality of reforming regions included in the plurality of second reforming regions, a first lower reforming region located closest to a lower surface of the substrate among the plurality of reforming regions included in the plurality of first reforming regions is located away from the lower surface of the substrate than a second lower reforming region located closest to the lower surface of the substrate among the plurality of reforming regions included in the plurality of second reforming regions, and the first upper reforming region and the second upper reforming region are located at different heights in a thickness direction of the substrate. 10. A method for manufacturing an acoustic wave device comprising: forming a plurality of first reforming regions in a substrate along a first direction and a plurality of second reforming regions in the substrate along a second direction intersecting the first direction by irradiating the substrate with a laser beam under different conditions in the first direction and the second direction, the substrate including a piezoelectric substrate on which an InterDigital Transducer (IDT) is formed, a linear expansion coefficient in the first direction of the piezoelectric substrate being larger than a linear expansion coefficient in the second direction, the plurality of first