Solid state laser apparatus

The invention claimed is: 1. A solid state laser apparatus comprising: a plurality of cold heads including at least three cold heads; a cooling apparatus coupled with the plurality of cold heads and configured to cool the plurality of cold heads; a plurality of laser media arranged in contact with each of the plurality of cold heads and configured to amplify a first laser beam and reflect the first laser beam; and a seed light source configured to irradiate a first laser medium of the plurality of laser media with the first laser beam, wherein: the plurality of laser media are configured to reflect the first laser beam from the first laser medium which is arranged directly on a first cold head of the plurality of cold heads to a second laser medium of the plurality of laser media which is arranged directly on a second cold head of the plurality of cold heads; the plurality of cold heads are configured to cool the plurality of laser media; each of the plurality of laser media has a first surface in direct contact with a corresponding cold head of the plurality of cold heads and a second surface opposite to the first surface; the solid state laser apparatus is configured such that the first laser beam is: (i) incident on the first laser medium through the first surface of the first laser medium; (ii) reflected by the second surface of the first laser medium; and (iii) irradiated from the first surface of the first laser medium; and the solid state laser apparatus is configured such that the first laser beam is amplified by traveling through an inside of the first laser medium. 2. The solid state laser apparatus according to claim 1 , wherein a thickness of the plurality of laser media is less than or equal to 1 mm. 3. The solid state laser apparatus according to claim 1 , further comprising a vacuum vessel including the plurality of cold heads therein. 4. The solid state laser apparatus according to claim 1 , further comprising a temperature measuring device configured to measure a temperature of at least one of the plurality of laser media. 5. The solid state laser apparatus according to claim 4 , wherein the temperature measuring device comprises: an optical analyzer configured to analyze a spectrum of light released from each of the plurality of laser media; and a determination section configured to determine the temperature of each of the plurality of laser media based on the spectrum of light released therefrom. 6. The solid state laser apparatus according to claim 1 , further comprising a light irradiation section supported by one of the plurality of cold heads and configured to irradiate each of the plurality of laser media with excitation light. 7. The solid state laser apparatus according to claim 1 , further comprising a light irradiation section configured to irradiate each of the plurality of laser media with excitation light, wherein the light irradiation section comprises: an optical sensor configured to detect a light wave from the each of the plurality of laser media; an angle control section configured to determine an irradiation direction of the excitation light based on a detection result; and an irradiation section configured to irradiate a surface of each of the plurality of laser media where the first laser beam is irradiated, with the excitation light, based on the irradiation direction. 8. The solid state laser apparatus according to claim 7 , wherein the angle control section is configured to: calculate a position where the first laser beam is incident on each of the plurality of laser media based on the detection result; and determine the irradiation direction so that the excitation light is irradiated at a point where the first laser beam is irradiated. 9. The solid state laser apparatus according to claim 7 , wherein the light irradiation section comprises a filter configured to pass light of a wavelength of the first laser beam in front of the optical sensor. 10. The solid state laser apparatus according to claim 7 , further comprising a vacuum vessel including the plurality of cold heads therein, wherein: the vacuum vessel comprises an excitation light window configured to transmit the excitation light; and the light irradiation section is outside the vacuum vessel. 11. The solid state laser apparatus according to claim 1 , further comprising a light irradiation section configured to irradiate each of the plurality of laser media with excitation light, wherein the light irradiation section comprises: an angle control section configured to determine an irradiation direction of the excitation light based on a light irradiation state; and an irradiation section configured to irradiate a surface of each of the plurality of laser media where the first laser beam is irradiated, with the excitation light, based on the irradiation direction. 12. The solid state laser apparatus according to claim 11 , wherein the angle control section is further configured to: hold change information that shows a position of the laser medium where the first laser beam in correspondence with the light irradiation state is irradiated; and determine the irradiation direction of the excitation light based on the position of the laser medium where the first laser beam in correspondence with a current light irradiation state is irradiated, from the change information. 13. A solid state laser apparatus comprising: a plurality of cold heads; a cooling apparatus coupled with the plurality of cold heads and configured to cool the plurality of cold heads; a plurality of laser media arranged in contact with each of the plurality of cold heads and configured to amplify a first laser beam and reflect the first laser beam; and a seed light source configured to irradiate a first laser medium of the plurality of laser media with the first laser beam, wherein: the plurality of cold heads are configured to cool the plurality of laser media; each of the plurality of laser media has a first surface in direct contact with a corresponding cold head of the plurality of cold heads and a second surface opposite to the first surface; the solid state laser apparatus is configured such that the first laser beam is: (i) incident on the first laser medium through the first surface of the first laser medium; (ii) reflected by the second surface of the first laser medium; and (iii) irradiated from the first surface of the first laser medium; and the solid state laser apparatus is configured such that the first laser beam is amplified by traveling through an inside of the first laser medium, wherein the plurality of cold heads include: a first set of cold heads including two or more cold heads; and a second set of cold heads including two or more cold heads, wherein the plurality of laser media include: a first laser media group including a laser medium arranged to the first set of cold heads; and a second laser media group including a laser medium arranged to the second set of cold heads, and wherein: the first laser media group includes the first laser medium, the seed light source is further configured to irradiate a second laser medium included in the second laser media group with a second laser beam; one laser medium, which is included in the first laser media group and arranged directly on one cold head of the first set of cold heads, is configured to reflect the first laser beam incident to the first laser medium to another laser medium, which is included in the first laser media group and arranged directly on another cold head of the first set of cold heads different from the one cold head of the first set of