Modification device, modification method, computer program product, image forming apparatus, and image forming system

What is claimed is: 1. A modification device comprising: a plasma processing unit that performs plasma processing on a processed object such that a surface of the processed object has a predetermined water contact angle; and a cooling unit that cools the surface of the processed object at least from when the plasma processing is performed to when ink is discharged such that a surface temperature of the processed object during discharge of the ink to the processed object is a temperature at which a target water contact angle range is achieved. 2. The modification device according to claim 1 , wherein the cooling unit cools at least one of a first area that is located upstream of the plasma processing unit on a conveyance path of the processed object in a conveying direction of the processed object, a second area where the plasma processing unit performs plasma processing on the processed object, and a third area that is located downstream of the plasma processing unit in the conveying direction of the processed object and that continues until before ink is discharged. 3. The modification device according to claim 2 , wherein the plasma processing unit includes a discharge electrode that discharges to the processed object; an earth electrode that is located opposite to the discharge electrode; and a voltage applying unit that applies a voltage to the discharge electrode and the earth electrode, and the cooling unit includes at least one of a first cooling unit that cools the first area and the third area, a second cooling unit that cools an inner side of the earth electrode to cool the second area, and a third cooling unit that cools an outer side of the earth electrode to cool the second area. 4. The modification device according to claim 1 , further comprising: an acquiring unit that acquires a surface temperature of the processed object from when the plasma processing is performed to when ink is discharged; and an adjusting unit that adjusts at least one of a plasma energy amount of the plasma processing unit and a cooling capability of the cooling unit in accordance with the acquired surface temperature. 5. The modification device according to claim 4 , wherein the adjusting unit adjusts at least one of the plasma energy amount of the plasma processing unit and the cooling capability of the cooling unit in accordance with at least one of a type of the processed object and a type of ink that is discharged to the processed object and the acquired surface temperature. 6. The modification device according to claim 4 , wherein the adjusting unit adjusts the plasma energy amount of the plasma processing unit such that, as the acquired surface temperature is higher, the plasma energy amount is larger. 7. The modification device according to claim 4 , wherein the adjusting unit adjusts the cooling capability of the cooling unit such that, as the acquired surface temperature is higher, the cooling capability is higher. 8. The modification device according to claim 4 , further comprising a detecting unit that is located upstream of a recording unit in a conveying direction of the processed object and that detects a surface temperature of the processed object that is conveyed on the conveyance path, the recording unit being located downstream of the plasma processing unit on a conveyance path of the processed object in the conveying direction of the processed object to discharge ink to the processed object, wherein the acquiring unit acquires a surface temperature of the processed object from when the plasma processing is performed to when ink is discharged in accordance with the surface temperature that is detected by the detecting unit. 9. The modification device according to claim 8 , wherein the detecting unit is located upstream of the recording unit on the conveyance path in the conveying direction of the processed object and is located downstream of the plasma processing unit in the conveying direction of the processed object. 10. The modification device according to claim 9 , wherein the detecting unit is located upstream of the recording unit on the conveyance path in the conveying direction of the processed object, is located downstream of the plasma processing unit in the conveying direction of the processed object, and is located at a position where the detecting unit is capable of detecting a surface temperature of the processed object right after the plasma processing unit performs the plasma processing. 11. An image forming apparatus comprising: the modification device according to claim 1 ; and a recording unit that is located downstream of the plasma processing unit in a conveying direction of the processed object and that discharges ink to the processed object. 12. An image forming system comprising: the modification device according to claim 1 ; and a recording unit that is located downstream of the plasma processing unit in a conveying direction of the processed object and that discharges ink to the processed object. 13. A modification method comprising: performing plasma processing on a processed object such that a surface of the processed object has a predetermined water contact angle; and cooling the surface of the processed object at least from when the plasma processing is performed to when ink is discharged such that a surface temperature of the processed object during discharge of the ink to the processed object is a temperature at which a target water contact angle range is achieved. 14. A computer program product comprising a non-transitory computer-readable medium having an information processing program, the program causing a computer to execute: performing plasma processing on a processed object such that a surface of the processed object has a predetermined water contact angle; and cooling the surface of the processed object at least from when the plasma processing is performed to when ink is discharged such that a surface temperature of the processed object during discharge of the ink to the processed object is a temperature at which a target water contact angle range is achieved.