Polarizing apparatus and polarizing method

What is claimed is: 1. A polarizing method comprising: forming a piezoelectric film by a chemical solution deposition method; irradiating the piezoelectric film with an electromagnetic wave to heat a predetermined region of the piezoelectric film to a temperature equal to or higher than a Curie temperature of the piezoelectric film; starting to apply an electric field to the predetermined region while the temperature of the predetermined region is equal to or higher than the Curie temperature; and continuing to apply the electric field until the temperature of the predetermined region falls below the Curie temperature. 2. The polarizing method according to claim 1 , wherein the predetermined region is irradiated with the electromagnetic wave while moving the piezoelectric film, and wherein, in a moving direction of the piezoelectric film, the electric field is applied at a more downstream side position than a position to which the electromagnetic wave is emitted. 3. The polarizing method according to claim 1 , wherein the electromagnetic wave is emitted and the electric field is applied at an ambient temperature in a range of from 1° C. to 40° C. 4. The polarizing method according to claim 1 , wherein the piezoelectric film is an amorphous film. 5. The polarizing method according to claim 4 , wherein the amorphous film is irradiated with the electromagnetic wave to crystallize the predetermined region of the amorphous film. 6. The polarizing method according to claim 5 , wherein the predetermined region crystallized with the electromagnetic wave has a perovskite structure. 7. The polarizing method according to claim 1 , wherein the piezoelectric film is a ferroelectric film. 8. A polarizing method comprising: forming a metal film; forming, on the metal film, a piezoelectric film by a chemical solution deposition method; causing an electromagnetic wave emitter to emit an electromagnetic wave to an object including the metal film and the piezoelectric film, the electromagnetic wave entering the object from the metal film such that a predetermined region of the piezoelectric film is heated by the metal film to a temperature equal to or higher than a Curie temperature of the piezoelectric film; causing an electric charge generator to start to apply an electric field to the predetermined region while the temperature of the predetermined region is equal to or higher than the Curie temperature; and continuing to apply the electric field until the temperature of the predetermined region falls below the Curie temperature, wherein an end, from which the electric field is applied to the predetermined region, of the electric charge generator is located closer to the piezoelectric film than the metal film is.