Light-emitting component, printhead, and image forming apparatus

What is claimed is: 1 . A light-emitting component comprising: a substrate; a plurality of light-emitting elements that are disposed on the substrate and emit light in a direction perpendicular to a front surface of the substrate; and a plurality of thyristors that are respectively stacked on the plurality of light-emitting elements and turn on to drive the light-emitting elements to emit light or to increase an emitted light amount, wherein each of the thyristors includes an opening in a path of light from the corresponding light-emitting element to the thyristor. 2 . The light-emitting component according to claim 1 , wherein the opening included in each of the thyristors reaches a semiconductor layer constituting the corresponding light-emitting element. 3 . The light-emitting component according to claim 1 , wherein each of the thyristors is constituted by at least one of an anode layer and a cathode layer, a first gate layer, a second gate layer, and the other of the anode layer and the cathode layer that are sequentially stacked on the substrate, and wherein the opening included in each of the thyristors is disposed in the other of the anode layer and the cathode layer from a surface of the other of the anode layer and the cathode layer. 4 . The light-emitting component according to claim 1 , wherein each of the thyristors is constituted by at least one of an anode layer and a cathode layer, a first gate layer, a second gate layer, and the other of the anode layer and the cathode layer that are sequentially stacked on the substrate, and wherein the opening included in each of the thyristors is disposed to reach the second gate layer. 5 . The light-emitting component according to claim 1 , wherein each of the thyristors is constituted by at least one of an anode layer and a cathode layer, a first gate layer, a second gate layer, and the other of the anode layer and the cathode layer that are sequentially stacked on the substrate, and wherein the opening included in each of the thyristors is disposed to reach the first gate layer. 6 . The light-emitting component according to claim 1 , wherein each of the thyristors is constituted by at least one of an anode layer and a cathode layer, a first gate layer, a second gate layer, and the other of the anode layer and the cathode layer that are sequentially stacked on the substrate, and wherein the opening included in each of the thyristors is disposed to reach the one of the anode layer and the cathode layer. 7 . The light-emitting component according to claim 1 , wherein each of the thyristors is stacked on the corresponding light-emitting element with a tunnel junction layer or a metallic conducting group III-V compound layer interposed therebetween. 8 . The light-emitting component according to claim 1 , wherein each of the thyristors includes a voltage reduction layer that reduces a rise voltage of the thyristor. 9 . The light-emitting component according to claim 1 further comprising a plurality of transfer elements that are respectively disposed on lower elements and respectively connected to the plurality of thyristors and sequentially turn on to set the thyristors to an on-state, the lower elements having an identical structure with the plurality of light-emitting elements, wherein the transfer elements are connected to the substrate via a connection wire with none of the lower elements interposed therebetween or with part of a plurality of semiconductor layers constituting the lower elements interposed therebetween. 10 . A printhead comprising: the light-emitting component according to claim 1 ; and an optical system that focuses light emitted from the light-emitting component to form an image. 11 . An image forming apparatus comprising: an image bearing member; a charging member that charges the image bearing member; the printhead according to claim 10 ; a developing member that develops an electrostatic latent image obtained by being exposed to light by the printhead and formed on the image bearing member; and a transfer member that transfers an image developed on the image bearing member to a transferred-image-receiving medium. 12 . A light-emitting component comprising: a light-emitting element; and a thyristor that is stacked on an emission surface side of the light-emitting element, includes an opening in a path of light emitted from the light-emitting element, and drives the light-emitting element. 13 . The light-emitting component according to claim 12 , wherein the opening is disposed at a position overlapping with a portion where an emitted light amount is largest on an emission surface of the light-emitting element. 14 . The light-emitting component according to claim 12 , wherein the opening is surrounded by the thyristor. 15 . The light-emitting component according to claim 12 , wherein the light-emitting element includes a current passing portion that constricts an electric current, and wherein a width or an area of the current passing portion is larger than a width or an area of the opening. 16 . The light-emitting component according to claim 12 , wherein the light-emitting element includes a current passing portion that constricts an electric current, and wherein a width or an area of the current passing portion is smaller than a width or an area of the opening. 17 . A light-emitting component comprising: a light-emitting element; and a thyristor that is stacked on an emission surface side of the light-emitting element at a portion not overlapping with a portion where an emitted light amount is largest on an emission surface of the light-emitting element and that drives the light-emitting element.