Solar cell system and method for operating solar cell system

What is claimed is: 1. A solar cell system, comprising: a solar cell that includes a first electrode, a second electrode that faces the first electrode, and a light absorbing layer that is located between the first electrode and the second electrode, and converts light into charges; a power supply that applies voltage between the first electrode and the second electrode; and a voltage controller, wherein the light absorbing layer contains a compound having a perovskite crystal structure represented by AMX 3 where A represents a monovalent cation, M represents a divalent cation, and X represents a halogen anion, and the voltage controller controls the voltage of the power supply so that during a first period of non-power generation, an electric current of 1 μA/cm 2 or more and 100 μA/cm 2 or less flows in the light absorbing layer in a direction opposite to a direction in which an electric current flows during power generation. 2. The solar cell system according to claim 1 , wherein the electric current that flows in the first period of the non-power generation is 1 μA/cm 2 or more and 5 μA/cm 2 or less. 3. The solar cell system according to claim 1 , wherein the voltage controller controls the power supply so that a length of the first period is 0.1 to less than 10 times an accumulated value of a time during which the solar cell is irradiated with light from a time at which last application of the voltage is ended. 4. The solar cell system according to claim 1 , wherein the voltage controller controls a magnitude of the voltage of the power supply and a length of the first period so that an amount of electrical power consumed by application of the voltage by the power supply is 0.001% or more and less than 1% with respect to an amount of electrical power generated by the solar cell from a time at which last application of the voltage is ended. 5. The solar cell system according to claim 1 , wherein the solar cell further includes an electron transporting layer that transports electrons from the light absorbing layer to the first electrode, the electron transporting layer being located between the first electrode and the light absorbing layer. 6. The solar cell system according to claim 1 , wherein the solar cell further includes a hole transporting layer that transports holes from the light absorbing layer to the second electrode, the hole transporting layer being located between the second electrode and the light absorbing layer. 7. A method for operating a solar cell system that includes a solar cell, the solar cell including a first electrode, a second electrode that faces the first electrode, and a light absorbing layer that is located between the first electrode and the second electrode, converts light into charges, and contains a compound having a perovskite crystal structure represented by AMX 3 where A represents a monovalent cation, M represents a divalent cation, and X represents a halogen anion, the method comprising: during power generation, extracting, through the first electrode and the second electrode, electrical power generated by conversion of light into charges by the light absorbing layer, and during a first period of non-power generation, applying a voltage between the first electrode and the second electrode so that an electric current of 1 μA/cm 2 or more and 100 μA/cm 2 or less flows in the light absorbing layer in a direction opposite to a direction in which an electric current flows during the power generation. 8. The method according to claim 7 , wherein the extracting the electrical power during the power generation and the applying the voltage during the non-power generation are alternately repeated. 9. The method according to claim 7 , wherein the voltage is applied when an accumulated value of a time during which the solar cell is irradiated with light from a time at which last application of the voltage is ended reaches a particular time. 10. The method according to claim 7 , wherein a magnitude of the voltage and a length of the first period are set according to an accumulated value of a time during which the solar cell is irradiated with light from a time at which last application of the voltage is ended. 11. The method according to claim 7 , wherein a magnitude of the voltage and a length of the first period are set so that an amount of electrical power consumed by application of the voltage is 0.001% or more and less than 1% with respect to an amount of electrical power generated by the solar cell from a time at which last application of the voltage is ended.