1
Damien Pauwels, Bruno Viana, Andree Kahn Harari, Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk: Scintillator crystals and their applications and manufacturing process. Crismatec, Pennie & Edmonds, August 20, 2002: US06437336 (30 worldwide citation)

A monoclinic single crystal with a lutetium pyrosilicate structure is described. The crystal is formed by crystallization from a congruent molten composition of LU


2
Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk, Hans Ulrich Guedel, Karl Wilhelm Kraemer, Edgar Valentijn Dieuwer Van Loef: Scintillator crystals, method for making same, user thereof. Stichting Voor de Technische Wetenschappen, Oblon Spivak McClelland Maier & Neustadt P C, June 27, 2006: US07067816 (27 worldwide citation)

The invention concerns an inorganic scintillator material of general composition M1-xCexBr3, wherein: M is selected among lanthanides or lanthanide mixtures of the group consisting of La, Gd, Y in particular among lanthanides or lanthanide mixtures of the group consisting of La, Gd; and x is the mol ...


3
Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk, Hans Ulrich Gudel, Karl Wilhelm Kramer, Edgar Valentijn Dieuwer Van Loef: Scintillator crystal, method for making same use thereof. Stichting Voor de Technische Wetenschappen, Oblon Spivak McClelland Maier & Neustadt P C, June 27, 2006: US07067815 (23 worldwide citation)

An inorganic scintillator material, a method for growing the monocrystalline scintillator material, and the use of the scintillator material as component of a scintillating detector in particular for industrial and medical purposes and in the oil industry. The inorganic scintillator material has the ...


4
Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk, Hans Ulrich Gudel, Karl Wilhelm Kramer, Edgar Valentijn Dieuwer Van Loef: Scintillator crystals, method for making same, use thereof. Stichting Voor de Technische Wetenschappen, Oblon Spivak McClelland Maier & Neustadt P C, June 19, 2007: US07233006 (13 worldwide citation)

The invention concerns an inorganic scintillator material of general composition M1-xCexCl3, wherein: M is selected among lanthanides or lanthanide mixtures, preferably among the elements or mixtures of elements of the group consisting of Y, La, Gd, Lu, in particular among the elements or mixtures o ...


5
Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk, Hans Ulrich Gudel, Karl Wilhelm Kramer, Edgar Valentijn Dieuwer Van Loef: Scintillator crystals, method for making same, use thereof. Stichting Voor de Technische Wetenschappen, Oblon Spivak McClelland Maier & Neustadt P C, July 31, 2007: US07250609 (10 worldwide citation)

The invention concerns an inorganic scintillator material of general composition M1-xCexBr3, wherein: M is selected among lanthanides or lanthanide mixtures of the group consisting of La, Gd, Y in particular among lanthanides or lanthanide mixtures of the group consisting of La, Gd; and x is the mol ...


6
Bernard Ferrand, Bruno Viana, Ludivine Pidol, Pieter Dorenbos: Low-delayed luminescence dense and rapid scintillator material. Saint Gobain Christaux Et Detecteurs, Oblon Spivak McClelland Maier & Neustadt L, January 26, 2010: US07651632 (8 worldwide citation)

The invention relates to an inorganic scintillator material of formula Lu(2−y)Y(y−z−x)CexMzSi(1−v)M′vO5, in which: M represents a divalent alkaline earth metal and M′ represents a trivalent metal, (z+v) being greater than or equal to 0.0001 and less than or equal to 0.2, z being greater than or equa ...


7
Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk, Hans Ulrich Gudel, Karl Wilhelm Kramer, Edgar Valentijn Dieuwer Van Loef: Scintillator crystals, method for making same, use thereof. Stichting Voor de Technische Wetenschappen, Oblon Spivak McClelland Maier & Neustadt P C, January 20, 2009: US07479637 (7 worldwide citation)

The invention concerns an inorganic scintillator material of general composition M1−xCexCl3, wherein: M is selected among lanthanides or lanthanide mixtures, preferably among the elements or mixtures of elements of the group consisting of Y, La, Gd, Lu, in particular among the elements or mixtures o ...


8
Karl Wilhelm Kraemer, Hans Ulrich Guedel, Aurelie Bessiere, Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk: Bright and fast neutron scintillators. Stichting Voor de Technische Wetenschappen, Universite de Berne, Oblon Spivak McClelland Maier & Neustadt P C, April 28, 2009: US07525100 (7 worldwide citation)

A scintillating material of the generic formula Cs(2−z)RbzLiLn(1−x)X6:xCe3+, where X is either Br or I, Ln is Y or Gd or Lu or Sc or La, where z is greater or equal to 0 and less or equal to 2, and x is above 0.0005 useful for detecting neutrons in a sample of radiation.


9
Bernard Ferrand, Bruno Viana, Ludivine Pidol, Pieter Dorenbos: Dense high-speed scintillator material of low afterglow. Saint Gobain Cristaux et Detecteurs, Oblon Spivak McClelland Maier & Neustadt L, October 11, 2011: US08034258 (5 worldwide citation)

The invention relates to an inorganic scintillator material of formula Lu(2-y)Y(y-z-x) CexMzSi(1-v)M′vO5, in which: M represents a divalent alkaline earth metal and M′ represents a trivalent metal, (z+v) being greater than or equal to 0.0001 and less than or equal to 0.2; z being greater than or equ ...


10
Damien Pauwels, Bruno Viana, Andree Kahn Harari, Pieter Dorenbos, Carel Wilhelm Eduard Van Eijk: Scintillator crystals and their applications and manufacturing process. Saint Gobain Cristaux & Detecteurs, Pennie & Edmonds, November 16, 2004: US06818896 (5 worldwide citation)

A monoclinic single crystal with a lutetium pyrosilicate structure is described. The crystal is formed by crystallization from a congruent molten composition of LU