# Nuclear Science and Techniques

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-7

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-9

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-7

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-6

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-8

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-6

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-8

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-11

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-8

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-8

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-7

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-6

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-10

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-9

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-11

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-9

*Topmetal*-$${II}^-$$ II- time projection chamber (TPC). This monitor was designed to improve spatial resolution for detecting radon alpha particles using

*Topmetal*-$${II}^-$$ II- sensors assembled by a 0.35 μm CMOS integrated circuit...

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-6

*n*,2

*n*) reactions for neodymium (Nd) isotopes induced by 14 MeV neutrons were measured in this work by using the activation and relative methods. The measured cross-sections of the

^{150}Nd(

*n*,2

*n*)

^{149}Nd,

^{148}Nd(

*n*,2

*n*)

^{147}Nd, and

^{142}Nd(

*n*,2

*n*)

^{141}Nd reactions were 1854 ± 81, 1789 ± 119, and 1559 ± 98 mb, respectively, at a neutron energy of 14.2 ± 0.2 MeV, and 1485 ± 74, 1726 ± 85, and 1670...

Nuclear Science and Techniques > 2019 > 30 > 1 > 1-11

Nuclear Science and Techniques > 2019 > 30 > 2 > 1-8

Nuclear Science and Techniques > 2019 > 30 > 2 > 1-12