Abstract: An adjustable rotor support with a carrier beam configured to receive a center shaft of a rotor, at least one support brace connected to the carrier beam, and an adjustment arrangement operably connected to the support brace(s). The adjustment arrangement is configured to generate movement of at least one of the support brace(s), movement of the support brace(s) generating movement of the carrier beam along an adjustment axis (A1) perpendicular to a center axis (A2) of the center shaft. The adjustment arrangement is configured to lock the support brace(s) in a position reached through the movement such that the position is maintained by the adjustment arrangement during operation of the rotor.

Abstract: A method is disclosed of growing an epitaxial layer on a substrate (20) of monocrystalline Silicon Carbide, SiC. The method comprises providing (S100) a source material (10) of monolithic polycrystalline SiC with a columnar micro-grain structure and the substrate (20) of monocrystalline SiC, in a chamber (5) of a crucible with a distance therein between, arranging (S102) a carbon getter (1) in said chamber (5) of the crucible close to the source material (10) and the substrate (20), said carbon getter (1) having a melting point higher than 2200° C. and an ability of forming a carbide layer with carbon species evaporated from SiC, reducing (S106) pressure in the chamber (5), inserting (S108) an inert gas into the chamber (5), raising (S110) the temperature in the chamber (5) to a growth temperature, such that a growth rate between 1 ?m/h and 1 mm/h, is achieved, and keeping (S112) the growth temperature until a growth of at least 5 ?m has been accomplished on the substrate (20).

Abstract: In order to provide a light-emitting device having improved color rendering properties, a light-emitting device which uses a SiC fluorescent material comprises a first SiC fluorescent portion in which a donor impurity and an acceptor impurity are added and which is formed of a SiC crystal; a second SiC fluorescent portion which is formed of a SiC crystal in which the same donor impurity as the first SiC fluorescent portion and the same acceptor impurity as the first SiC fluorescent portion are added, and in which a concentration of the acceptor impurity is higher than the concentration of the acceptor impurity in the first SiC fluorescent portion and an emission wavelength is longer than that of the first SiC fluorescent portion; and a light-emitting portion that emits excitation light that excites the first SiC fluorescent portion and the second SiC fluorescent portion.

Abstract: In order to provide a light-emitting device having improved color rendering properties, a light-emitting device which uses a SiC fluorescent material comprises a first SiC fluorescent portion in which a donor impurity and an acceptor impurity are added and which is formed of a SiC crystal; a second SiC fluorescent portion which is formed of a SiC crystal in which the same donor impurity as the first SiC fluorescent portion and the same acceptor impurity as the first SiC fluorescent portion are added, and in which a concentration of the acceptor impurity is higher than the concentration of the acceptor impurity in the first SiC fluorescent portion and an emission wavelength is longer than that of the first SiC fluorescent portion; and a light-emitting portion that emits excitation light that excites the first SiC fluorescent portion and the second SiC fluorescent portion.

Abstract: An LED element capable of further improving the light extraction efficiency and a manufacturing method for the same are provided. In an LED element, a front surface of a sapphire substrate foams a verticalized moth eye surface having a plurality of depression parts or projection parts whose period is greater than twice an optical wavelength of light emitted from a light-emitting layer and smaller than coherent length, and a light whose intensity distribution is adjusted by reflecting on and transmitting through the verticalized moth eye surface to be inclined to a vertical direction with respect to an interface between a semiconductor lamination unit and the sapphire substrate is discharged from a transmission moth eye surface to an outer side of the element with Fresnel reflection being inhibited.