Light detection device

1 : A light detection device comprising: a mounting substrate having a main surface; a light detector disposed on the main surface of the mounting substrate; a Fabry-Perot interference filter configured so that a distance between a pair of mirror parts changes due to an electrostatic force by forming a gap between the pair of mirror parts facing each other; a support member provided on the main surface of the mounting substrate and configured to support the Fabry-Perot interference filter so that the Fabry-Perot interference filter and the light detector are separated from each other; and a ground part connected to a ground potential, wherein a second current path having a smaller electrical resistance than that of an arbitrary first current path extending from the Fabry-Perot interference filter to the light detector via the support member and the mounting substrate is formed between the Fabry-Perot interference filter and the ground part. 2 : The light detection device according to claim 1 , further comprising a conductive connecting member configured to electrically connect the support member or the mounting substrate to the ground part so that a current component flowing from the Fabry-Perot interference filter to the support member is released to the ground part. 3 : The light detection device according to claim 2 , wherein: the connecting member electrically connects a region along the main surface of the mounting substrate to the ground part, and the second current path is a path extending from the Fabry-Perot interference filter to the ground part via the support member, the region along the main surface, and the connecting member. 4 : The light detection device according to claim 3 , wherein: the mounting substrate includes an insulating layer having a first surface as the main surface and a second surface on a side opposite to the first surface, and a metal layer provided on the second surface side of the insulating layer, and the region along the main surface is the metal layer. 5 : The light detection device according to claim 4 , wherein: an opening part which exposes a surface of the metal layer on an insulating layer side is formed in the insulating layer, and the connecting member is connected to the metal layer via the opening part and is connected to the ground part. 6 : The light detection device according to claim 4 , wherein: the metal layer is provided at least at an edge portion of the mounting substrate when seen in a thickness direction of the mounting substrate, a portion of the metal layer provided at the edge portion of the mounting substrate is exposed to an outside, and the connecting member is a conductive resin material which is provided to cover the edge portion of the mounting substrate and connects the portion of the metal layer to the ground part. 7 : The light detection device according to claim 4 , wherein the metal layer is provided to overlap a region on the mounting substrate in which the support member is provided when seen in a thickness direction of the mounting substrate. 8 : The light detection device according to claim 4 , wherein the metal layer is provided not to overlap the light detector when seen in a thickness direction of the mounting substrate. 9 : The light detection device according to claim 8 , wherein the metal layer is provided to overlap an arbitrary current path between the region on the mounting substrate in which the support member is provided and the light detector when seen in the thickness direction of the mounting substrate. 10 : The light detection device according to claim 3 , wherein: the mounting substrate has an insulating layer having a first surface as the main surface, and a metal layer provided between the first surface of the insulating layer and the support member, and the region along the main surface is the metal layer. 11 : The light detection device according to claim 2 , wherein: the ground part is a stem to which a surface of the mounting substrate on a side opposite to the main surface is fixed, the mounting substrate includes a first layer having a first surface as the main surface and a second surface on a side opposite to the first surface, and a second layer provided on the second surface side of the first layer, the connecting member is disposed between a surface of the second layer on a side opposite to the first layer and the stem, and electrically connects the surface of the second layer on the side opposite to the first layer to the stem, an electrical resistance of a current path extending from the support member to the stem via the first layer and the second layer is smaller than that of a current path extending from the support member to the light detector via at least one of the first layer and the second layer, and the second current path is a path extending from the Fabry-Perot interference filter to the stem via the support member, the first layer, the second layer, and the connecting member. 12 : The light detection device according to claim 2 , wherein: the connecting member electrically connects the support member to the ground part, and the second current path is a path extending from the Fabry-Perot interference filter to the ground part via the support member and the connection member. 13 : The light detection device according to claim 2 , further comprising a metal film disposed between the support member and the Fabry-Perot interference filter, wherein the connecting member electrically connects the support member to the ground part via the metal film, and the second current path is a path extending from the Fabry-Perot interference filter to the ground part via the metal film and the connecting member.