Infrared sensor

What is claimed is: 1. An infrared sensor comprising: a base substrate comprising a recess portion; a thermopile infrared receiver; a first beam; and a second beam, wherein: one end of the first beam is connected to the infrared receiver, other end of the first beam is connected to the base substrate, one end of the second beam is connected to the infrared receiver, other end of the second beam is connected to the base substrate, the recess portion is located between the infrared receiver and the base substrate in a cross-sectional view in such a manner that the infrared receiver is suspended above the base substrate, the recess portion is located between the first beam and the base substrate in a cross-sectional view in such a manner that the first beam is suspended above the base substrate, the recess portion is located between the second beam and the base substrate in a cross-sectional view in such a manner that the second beam is suspended above the base substrate, the first beam includes a p-type first domain, a p-type second domain, and a p-type third domain, the p-type first domain is located between the p-type second domain and the infrared receiver in a plan view, the p-type first domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 1 p , the p-type second domain is located between the p-type first domain and the p-type third domain in the plan view, the p-type second domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 2 p , the p-type third domain is located between the p-type second domain and the base substrate in the plan view, the p-type third domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 3 p , a value of the period p 2 p is greater than a value of the period p 1 p , a value of the period p 3 p is greater than a value of the period p 2 p , the second beam includes an n-type first domain, an n-type second domain, and an n- t ype third domain, the n-type first domain is located between the n-type second domain and the infrared receiver in the plan view, the n-type first domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 1 n , the n-type second domain is located between the n-type first domain and the n-type third domain, the n-type second domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 2 n , the n-type third domain is located between the n-type second domain and the base substrate in the plan view, the n-type third domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 3 n , a value of the period p 2 n is greater than a value of the period p 1 n , and a value of the period p 3 n is greater than a value of the period p 2 n . 2. The infrared sensor according to claim 1 , further comprising: a first electric wire electrically connected to the first beam; a second electric wire electrically connected to the second beam; a first electrode electrically connected to the first electric wire; and a second electrode electrically connected to the second electric wire. 3. An infrared sensor comprising: a base substrate comprising a recess portion; a thermistor infrared receiver; a first beam; a first electric wire electrically connected to the infrared receiver; a second electric wire electrically connected to the infrared receiver; a first electrode electrically connected to the first electric wire; and a second electrode electrically connected to the second electric wire, wherein: one end of the first beam is connected to the infrared receiver, other end of the first beam is connected to the base substrate, the recess portion is located between the infrared receiver and the base substrate in a cross-sectional view in such a manner that the infrared receiver is suspended above the base substrate, the recess portion is located between the first beam and the base substrate in a cross-sectional view in such a manner that the first beam is suspended above the base substrate, the first beam includes a first domain, a second domain, and a third domain, the first domain is located between the second domain and the infrared receiver in a plan view, the first domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 1 , the second domain is located between the first domain and the third domain in the plan view, the second domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 2 , the third domain is located between the second domain and the base substrate in the plan view, the third domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 3 , and a value of the period p 2 is greater than a value of the period p 1 , and a value of the period p 3 is greater than a value of the period p 2 . 4. The infrared sensor according to claim 3 , further comprising a second beam, wherein: one end of the second beam is connected to the infrared receiver, other end of the second beam is connected to the base substrate, the recess portion is located between the second beam and the base substrate in a cross-sectional view in such a manner that the second beam is suspended above the base substrate, the second beam includes a fourth domain and a fifth domain each formed of a phononic crystal, the fourth domain is located between the fifth domain and the infrared receiver in a plan view, the fourth domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 4 , the fifth domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 5 , and a value of the period p 5 is greater than a value of the period p 4 . 5. The infrared sensor according to claim 4 , wherein the first electric wire is in contact with a surface of the first beam, and the second electric wire is in contact with a surface of the second beam. 6. The infrared sensor according to claim 3 , wherein the first electric wire and the second electric wire are in contact with a surface of the first beam. 7. An infrared sensor comprising: a base substrate comprising a recess portion; a thermistor infrared receiver; a first beam; a second beam; a first electric wire electrically connected to the infrared receiver; a second electric wire electrically connected to the infrared receiver; a first electrode electrically connected to the first electric wire; and a second electrode electrically connected to the second electric wire, wherein: one end of the first beam is connected to the infrared receiver, other end of the first beam is connected to the base substrate, the recess portion is located between the infrared receiver and the base substrate in a cross-sectional view in such a manner that the infrared receiver is suspended above the base substrate, the recess portion is located between the first beam and the base substrate in a cross-sectional view in such a manner that the first beam is suspended above the base substrate, the first beam consists only of a first domain and a second domain, the first domain is located between the second domain and the infrared receiver in a plan view, the first domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 1 , the second domain is formed of a phononic crystal comprising through holes arranged regularly at a period p 2 , a value of the period p 2 is greater than a value of the period p 1 , one end of the second beam is connected to the infrar