Cryogenic cooling system

What is claimed is: 1. A cryogenic cooling system comprising: a gas circulation source that circulates a cooling gas; a cryocooler including a cryocooler stage that cools the cooling gas; an object-to-be-cooled gas flow path provided around or inside an object to be cooled for causing the cooling gas to flow therethrough; a gas supply line that connects the gas circulation source to an inlet of the object-to-be-cooled gas flow path to supply the cooling gas from the gas circulation source via the cryocooler stage to the object-to-be-cooled gas flow path; a gas recovery line that connects an outlet of the object-to-be-cooled gas flow path to the gas circulation source so as to recover the cooling gas from the object-to-be-cooled gas flow path to the gas circulation source; at least one temperature sensor that is installed at a measurement location away from the inlet of the object-to-be-cooled gas flow path along the gas supply line and/or a measurement location installed away from the outlet of the object-to-be-cooled gas flow path along the gas recovery line; and a gas flow rate control unit that controls the gas circulation source so as to adjust a flow rate of the cooling gas flowing through the object-to-be-cooled gas flow path in accordance with a measured temperature at at least one measurement location by the temperature sensor, wherein the gas flow rate control unit includes a gas flow rate table configured to associate a target cooling gas flow rate with each of a plurality of different cooling temperatures at a specific measurement location, and wherein the gas flow rate control unit determines the target cooling gas flow rate in accordance with a measured temperature at the specific measurement location according to the gas flow rate table, and controls the gas circulation source so as to cause the cooling gas to flow through the object-to-be-cooled gas flow path with the target cooling gas flow rate. 2. The cryogenic cooling system according to claim 1 , wherein the gas supply line includes an upstream part from the gas circulation source to the cryocooler stage and a downstream part from the cryocooler stage to the inlet of the object-to-be-cooled gas flow path, and wherein the temperature sensor is installed in the upstream part of the gas supply line or in the cryocooler stage. 3. The cryogenic cooling system according to claim 1 , wherein the cryocooler stage is disposed in a first vacuum environment, wherein the object-to-be-cooled gas flow path is disposed in a second vacuum environment isolated from the first vacuum environment, and wherein the temperature sensor is disposed in the first vacuum environment. 4. The cryogenic cooling system according to claim 1 , wherein only one temperature sensor is provided, and the temperature sensor is installed at any of a measurement location away from the inlet of the object-to-be-cooled gas flow path along the gas supply line or at a measurement location away from the outlet of the object-to-be-cooled gas flow path along the gas recovery line. 5. The cryogenic cooling system according to claim 1 , wherein the gas flow rate table is configured to associate an optimal cooling gas flow rate for maximizing a cooling capacity of the cryogenic cooling system with each of a plurality of different cooling temperatures at the specific measurement location. 6. The cryogenic cooling system according to claim 1 , wherein the object to be cooled is a superconducting electromagnet. 7. The cryogenic cooling system according to claim 1 , further comprising: a motor which drives the gas circulation source, wherein the gas flow rate control unit is configured to control a rotation speed of the motor. 8. The cryogenic cooling system according to claim 1 , wherein the gas circulation source includes a flow rate control valve which is configured to control a flow rate of the cooling gas flowing through the object-to-be-cooled gas flow path, wherein the flow rate control valve is disposed in a surrounding environment, and wherein the gas flow rate control unit is configured to control the flow rate control valve.