Embodiments herein may relate to an apparatus with a package that includes a first substrate soldered to a second substrate via solder comprising an off-eutectic solder material. The off-eutectic solder material may form a joint between the first substrate and the second substrate. The off-eutectic solder material may be any suitable material that melts over a range of temperatures, which may provide a relatively slow collapse of the off-eutectic solder material during a melting process. The relatively slow collapse may provide a sufficient amount of time for gases to escape prior to collapse, and thus, the joint between the first substrate and the second substrate may have less voids compared to joints formed using eutectic solder materials. Other embodiments may be described and/or claimed.

Embodiments herein may relate to an apparatus with a package that includes a first substrate soldered to a second substrate via solder comprising an off-eutectic solder material. The off-eutectic solder material may form a joint between the first substrate and the second substrate. The off-eutectic solder material may be any suitable material that melts over a range of temperatures, which may provide a relatively slow collapse of the off-eutectic solder material during a melting process. The relatively slow collapse may provide a sufficient amount of time for gases to escape prior to collapse, and thus, the joint between the first substrate and the second substrate may have less voids compared to joints formed using eutectic solder materials. Other embodiments may be described and/or claimed.

Produced is a metal ball which suppresses an emitted dose. Contained are the steps of melting a pure metal by heating the pure metal at a temperature which is higher than a boiling point of an impurity to be removed, higher than a melting point of the pure metal, and lower than a boiling point of the pure metal, the pure metal containing a U content of 5 ppb or less, a Th content of 5 ppb or less, purity of 99.9% or more and 99.995% or less, and a Pb or Bi content or a total content of Pb and Bi of 1 ppm or more, and the pure metal having the boiling point higher than the boiling point at atmospheric pressure of the impurity to be removed; and sphering the molten pure metal in a ball.

Produced is a metal ball which suppresses an emitted dose. Contained are the steps of melting a pure metal by heating the pure metal at a temperature which is higher than a boiling point of an impurity to be removed, higher than a melting point of the pure metal, and lower than a boiling point of the pure metal, the pure metal containing a U content of 5 ppb or less, a Th content of 5 ppb or less, purity of 99.9% or more and 99.995% or less, and a Pb or Bi content or a total content of Pb and Bi of 1 ppm or more, and the pure metal having the boiling point higher than the boiling point at atmospheric pressure of the impurity to be removed; and sphering the molten pure metal in a ball.

Produced is a metal ball which suppresses an emitted dose. Contained are the steps of melting a pure metal by heating the pure metal at a temperature which is higher than a boiling point of an impurity to be removed, higher than a melting point of the pure metal, and lower than a boiling point of the pure metal, the pure metal containing a U content of 5 ppb or less, a Th content of 5 ppb or less, purity of 99.9% or more and 99.995% or less, and a Pb or Bi content or a total content of Pb and Bi of 1 ppm or more, and the pure metal having the boiling point higher than the boiling point at atmospheric pressure of the impurity to be removed; and sphering the molten pure metal in a ball.

Produced is a metal ball which suppresses an emitted dose. Contained are the steps of melting a pure metal by heating the pure metal at a temperature which is higher than a boiling point of an impurity to be removed, higher than a melting point of the pure metal, and lower than a boiling point of the pure metal, the pure metal containing a U content of 5 ppb or less, a Th content of 5 ppb or less, purity of 99.9% or more and 99.995% or less, and a Pb or Bi content or a total content of Pb and Bi of 1 ppm or more, and the pure metal having the boiling point higher than the boiling point at atmospheric pressure of the impurity to be removed; and sphering the molten pure metal in a ball.