Flame-retardant polyorganosiloxane composition, flame-retardant cured product, and optical member

What is claimed is: 1. A flame-retardant polyorganosiloxane composition comprising: (A) a straight-chain polyorganosiloxane represented by general formula: wherein R 1 s represent an alkenyl group or a substituted or unsubstituted alkyl group, n represents the number of repeating units, and a sum of n and the number of end groups (n+2) defines an average polymerization degree, the straight-chain polyorganosiloxane having two or more alkenyl groups bonded to silicon atoms on average in one molecule and having a viscosity at 25° C. of 80,000 to 1,000,000 mPa s; (B) 30 to 80 mass % of a polyorganosiloxane having a resin structure to a total of the component (A) and the component (B), the polyorganosiloxane having 1.5 or more alkenyl groups bonded to silicon atoms on average in one molecule, wherein the component (B) comprises at least one selected from the group consisting of phosphorus and an alkali metal, wherein the component (B) comprises potassium as the alkali metal, a content ratio of all alkali metals in the component (B) is 0.6 ppm by mass or more, and the polyorganosiloxane comprises: a monofunctional siloxane unit represented by a formula: (CH 3 ) 2 (CH 2 ═CH) SiO 1/2 ; a monofunctional siloxane unit represented by a formula: (CH 3 ) 3 SiO 1/2 ; and a tetrafunctional siloxane unit represented by a formula: SiO 4/2 ; (C) a polyorganohydrogensiloxane having three or more hydrogen atoms bonded to silicon atoms on average in one molecule, wherein an amount of the hydrogen atoms bonded to the silicon atoms in the component (C) becomes 1.0 to 3.0 mol to a total 1 mol of the alkenyl groups in the component (A) and the alkenyl groups in the component (B); and (D) a catalytic amount of a hydrosilylation reaction catalyst, wherein a total content of phosphorus and an alkali metal is 10 mass ppm or less, and a total content of all alkali metals in the flame-retardant polyorganosiloxane composition is less than 0.4 mass ppm. 2. The flame-retardant polyorganosiloxane composition according to claim 1 , wherein the component (A) is synthesized using a thermally decomposable polymerization catalyst. 3. The flame-retardant polyorganosiloxane composition according to claim 1 , wherein the component (A) contains substantially no alkali metal. 4. The flame-retardant polyorganosiloxane composition according to claim 1 , wherein a total content of phosphorus and an alkali metal in the component (B) is 30 mass ppm or less of the component (B). 5. The flame-retardant polyorganosiloxane composition according to claim 4 , wherein a content ratio of the phosphorus in the component (B) to the component (B) is 25 mass ppm or less. 6. The flame-retardant polyorganosiloxane composition according to claim 1 , the flame-retardant polyorganosiloxane composition not containing an inorganic filler, and a cured product with a 6 mm thickness of the flame-retardant polyorganosiloxane composition having an 85% transmittance or higher for light with a 400 nm wavelength. 7. A flame-retardant cured product produced through curing of the flame-retardant polyorganosiloxane composition according to claim 1 , wherein an evaluation of UL-94 flame retardancy of a specimen with a 6 mm thickness or less of the flame-retardant cured product is V-1 or V-0. 8. A flame-retardant cured product produced through curing of the flame-retardant polyorganosiloxane composition according to claim 1 , wherein an evaluation of UL-94 flame retardancy of a specimen with a 6 mm thickness or less of the flame-retardant cured product is 5VB or 5VA. 9. A flame-retardant cured product produced through curing of the flame-retardant polyorganosiloxane composition according to claim 1 , wherein an evaluation of a specimen with a 6 mm thickness or less of the flame-retardant cured product in a UL-746C ultraviolet exposure and water immersion test is F1. 10. An optical member produced through curing of the flame-retardant polyorganosiloxane composition according to claim 1 . 11. The optical member according to claim 10 , the optical member being a lens for a light source or a cover for a light source. 12. The optical member according to claim 11 , wherein the light source is at least one selected from indoor or outdoor lighting, a reading light and accent lighting of public transportation, and an LED street light. 13. The optical member according to claim 10 , the optical member being at least one selected from a primary or secondary LED lens, a thick optical lens, an LED reflector, an automobile LED matrix lighting lens, an optical member for augmented reality, a silicone optical head for an LED chip, a lens and a reflector for a work light, a lighting optical member for a smartphone or a tablet, an LED display for a computer or television, and a light guide.