Extreme ultraviolet light generation apparatus

The invention claimed is: 1. An extreme ultraviolet light generation apparatus comprising: a chamber including a plasma generation region to which a target is supplied, the target being turned into plasma so that extreme ultraviolet light is generated in the chamber; a target supply part configured to supply the target to the plasma generation region by outputting the target as a droplet into the chamber; a droplet detector configured to detect the droplet traveling from the target supply part to the plasma generation region; an imaging part configured to capture an image of an imaging region containing the plasma generation region in the chamber; and a controller configured to control an imaging timing at which the imaging part captures the image of the imaging region, based on a detection timing at which the droplet detector detects the droplet, wherein the droplet is turned into plasma upon being irradiated with a laser beam in the plasma generation region, and emits plasma light containing the extreme ultraviolet light; the controller controls an irradiation timing at which the droplet is irradiated with the laser beam in the plasma generation region, based on the detection timing; the controller sets a first imaging timing to a timing just after the irradiation timing; and the imaging part captures an image of the plasma light generated in the imaging region at the first imaging timing. 2. The extreme ultraviolet light generation apparatus according to claim 1 , wherein: the controller sets the irradiation timing to a timing which is delayed from the detection timing by a predetermined period of time, and also sets the a second imaging timing to a timing just before the irradiation timing; and the imaging part captures an image of the droplet falling within the imaging region at the second imaging timing. 3. The extreme ultraviolet light generation apparatus according to claim 1 , wherein the controller controls a position of the droplet and a focused position of the laser beam, based on the image of the droplet and the image of the plasma light captured by the imaging part. 4. An extreme ultraviolet light generation apparatus comprising: a chamber including a plasma generation region to which a target is supplied, the target being turned into plasma so that extreme ultraviolet light is generated in the chamber; a target supply part configured to supply the target to the plasma generation region by outputting the target as a droplet into the chamber; a droplet detector configured to detect the droplet traveling from the target supply part to the plasma generation region; an imaging part configured to capture an image of an imaging region containing the plasma generation region in the chamber; and a controller configured to control an imaging timing at which the imaging part captures the image of the imaging region, based on a detection timing at which the droplet detector detects the droplet, wherein: a first prepulse laser beam, a second prepulse laser beam and a main pulse laser beam are introduced into the plasma generation region; the droplet outputted to the plasma generation region is irradiated with the first prepulse laser beam; a secondary target resulting from irradiating the droplet with the first prepulse laser beam is irradiated with the second prepulse laser beam; a tertiary target resulting from irradiating the secondary target with the second prepulse laser beam is irradiated with the main pulse laser beam; the tertiary target is turned into plasma upon being irradiated with the main pulse laser beam, and emits plasma light containing the extreme ultraviolet light; the controller controls a first irradiation timing at which the droplet is irradiated with the first prepulse laser beam, a second irradiation timing at which the secondary target is irradiated with the second prepulse laser beam, and a third irradiation timing at which the tertiary target is irradiated with the main pulse laser beam, based on the detection timing; the controller sets the first irradiation timing to a timing which is delayed from the detection timing by a first predetermined period of time, and also sets a first imaging timing to a timing just before the first irradiation timing; and the imaging part captures an image of the droplet falling within the imaging region at the first imaging timing. 5. The extreme ultraviolet light generation apparatus according to claim 4 , wherein: the controller sets the second irradiation timing to a timing which is delayed from the detection timing by a second predetermined period of time longer than the first predetermined period of time, and also sets a second imaging timing to a timing just before the second irradiation timing: and the imaging part captures an image of the secondary target falling within the imaging region at the second imaging timing. 6. The extreme ultraviolet light generation apparatus according to claim 5 , wherein: the controller sets the third irradiation timing to a timing which is delayed from the detection timing by a third predetermined period of time longer than the second predetermined period of time, and also sets a third imaging timing to a timing just before the third irradiation timing: and the imaging part captures an image of the tertiary target falling within the imaging region at the third imaging timing. 7. The extreme ultraviolet light generation apparatus according to claim 6 , wherein: the controller sets a fourth imaging timing to a timing just after the third irradiation timing; and the imaging part captures an image of the plasma light falling within generated in the imaging region at the fourth imaging timing. 8. The extreme ultraviolet light generation apparatus according to claim 7 , wherein the controller controls: a position of the droplet based on the image of the droplet captured by the imaging part; a focused position of the first prepulse laser beam based on the image of the secondary target captured by the imaging part; a focused position of the second prepulse laser beam based on the image of the tertiary target captured by the imaging part; and a focused position of the main pulse laser beam based on the image of the plasma light captured by the imaging part.