The technology of neutron transmutation doping of silicon wafers in MARIA nuclear research reactor is described. The studies of the radiation defects performed with positron annihilation confirmed that divacancies dominate in the irradiated material. Thermal treatment of irradiated silicon at 700-1000°C produces void-phosphorus complexes and void aggregates. The resistivity of the samples produced by neutron transmutation doping was found to be uniform within 2.5% limits. The severe reduction of the minority carrier lifetime in irradiated samples was confirmed
In future particle accelerators, silicon detectors will be exposed with large doses of different typ...
Experimental study of the reverse annealing of the effective concentration of ionized space charges ...
Radiation hardness of Czochralski grown n-type silicon samples, doped by germanium (NGe = 2 ⋅ 1020 c...
The technology of neutron transmutation doping of silicon wafers in MARIA nuclear research reactor i...
The ways of increasing the radiation hardness of silicon were considered. It was then experimentally...
Neutron transmutation doping is used to create high-quality silicon with a specific target resistivi...
P-type silicon was doped by neutron transmutation (NTD-Si) to produce high resistivity n-type silic...
71 p. : ill ; 30 cmCe travail concerne le dopage du silicium par la technique de transmutation neutr...
Abstract. Silicon n-type samples with resistivity ~2.5⋅103 Ohm⋅cm grown by the method of a floating-...
viii The growing use of NTD silicon outside the U. S. A. motivated an interest in having the next NT...
Section V. Equipment, Methods and Automation of Nuclear Experiments, Interaction of Nuclear Radiatio...
High resistivity(over 1O.Okohm.cm) extrinsec P-type Si was produced from high pure P-type Si(resisti...
Silicon irradiated with fast neutrons exhibits a variety of infrared absorption, photoconductivity [...
Detectors made on the silicon wafers with high concentration of thermal donors (TD), which were intr...
The complex nuclear reaction (Si-30 → Si-31 → P-31 → P-32) leading to the formation of radioactive P...
In future particle accelerators, silicon detectors will be exposed with large doses of different typ...
Experimental study of the reverse annealing of the effective concentration of ionized space charges ...
Radiation hardness of Czochralski grown n-type silicon samples, doped by germanium (NGe = 2 ⋅ 1020 c...
The technology of neutron transmutation doping of silicon wafers in MARIA nuclear research reactor i...
The ways of increasing the radiation hardness of silicon were considered. It was then experimentally...
Neutron transmutation doping is used to create high-quality silicon with a specific target resistivi...
P-type silicon was doped by neutron transmutation (NTD-Si) to produce high resistivity n-type silic...
71 p. : ill ; 30 cmCe travail concerne le dopage du silicium par la technique de transmutation neutr...
Abstract. Silicon n-type samples with resistivity ~2.5⋅103 Ohm⋅cm grown by the method of a floating-...
viii The growing use of NTD silicon outside the U. S. A. motivated an interest in having the next NT...
Section V. Equipment, Methods and Automation of Nuclear Experiments, Interaction of Nuclear Radiatio...
High resistivity(over 1O.Okohm.cm) extrinsec P-type Si was produced from high pure P-type Si(resisti...
Silicon irradiated with fast neutrons exhibits a variety of infrared absorption, photoconductivity [...
Detectors made on the silicon wafers with high concentration of thermal donors (TD), which were intr...
The complex nuclear reaction (Si-30 → Si-31 → P-31 → P-32) leading to the formation of radioactive P...
In future particle accelerators, silicon detectors will be exposed with large doses of different typ...
Experimental study of the reverse annealing of the effective concentration of ionized space charges ...
Radiation hardness of Czochralski grown n-type silicon samples, doped by germanium (NGe = 2 ⋅ 1020 c...