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265810-1.2GGold is one of the most popular materials to be used for neutron flux monitoring mainly because it possesses a large thermal cross section for neutron capture ( 197 Au(η, η) 198 Au. Gold has the half-life of 2.
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265810-4.8GGold is one of the most popular materials to be used for neutron flux monitoring mainly because it possesses a large thermal cross section for neutron capture ( 197 Au(η, η) 198 Au. Gold has the half-life of 2.
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265829-6GGold is one of the most popular materials to be used for neutron flux monitoring mainly because it possesses a large thermal cross section for neutron capture ( 197 Au(η, η) 198 Au. Gold has the half-life of 2.
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265837-3GQuantity 3 g = 2.2 cm 15 g = 11 cm
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268461-1.2GGold is one of the most popular materials to be used for neutron flux monitoring mainly because it possesses a large thermal cross section for neutron capture ( 197 Au(η, η) 198 Au. Gold has the half-life of 2.
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268461-300MGGold is one of the most popular materials to be used for neutron flux monitoring mainly because it possesses a large thermal cross section for neutron capture ( 197 Au(η, η) 198 Au. Gold has the half-life of 2.
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310980-1.9GQuantity 380 mg = 10 cm 1.9 g = 50 cm
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310980-380MGQuantity 380 mg = 10 cm 1.9 g = 50 cm
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326496-1.5GApplication Gold-foil can be used to fabricate carbide-derived nanoporous carbon based polymeric actuators. Gold-foil modified actuators show high frequency response and low operating voltage.
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326496-6GApplication Gold-foil can be used to fabricate carbide-derived nanoporous carbon based polymeric actuators. Gold-foil modified actuators show high frequency response and low operating voltage.
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326526-500MGQuantity 500 mg = 2 m 2.5 g = 10 m
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326534-2.8GQuantity 280 mg = 25 cm 2.8 g = 250 cm