Selective laser solidification apparatus and method

The invention claimed is: 1. A method of selecting a scanning sequence of a laser beam in a selective laser solidification process, in which one or more objects are formed layer-by-layer by repeatedly depositing a layer of powder on a powder bed and scanning the laser beam over the deposited powder to selectively solidify at least part of the powder layers, the method comprising determining an order in which areas should be scanned by: projecting a debris fallout zone that would be created when solidifying each area based on a gas flow direction of a gas flow passed over the powder bed; determining whether one or more other areas to be solidified fall within the debris fallout zone; and selecting to solidify the one or more other areas that fall within the debris fallout zone before solidifying the area from which the debris fallout zone has been projected. 2. The method according to claim 1 , further comprising selecting the scanning sequence such that debris produced during a scan is carried away from areas of the powder layer which are yet to be scanned. 3. The method according to claim 1 , further comprising selecting to scan an area before another area because the area is located downwind of the other area in the gas flow direction. 4. The method according to claim 1 , wherein the one or more objects are formed through solidification of separate islands in at least one powder layer, the method further comprising selecting an order in which islands are formed based upon a relative location of the islands in the at least one powder layer and the gas flow direction. 5. The method according to claim 4 , further comprising selecting the order in which islands are formed such that debris produced by forming an island is carried away from areas of the powder layer in which islands are yet to be formed. 6. The method according to claim 4 , further comprising selecting to form at least part of an island before at least part of another island because the at least part of the island is located downwind of at least part of the other island in the gas flow direction. 7. The method according to claim 4 , further comprising, for islands wherein a first island is located wholly downwind of a second island, selecting to form the first island completely before forming the second island. 8. The method according to claim 4 , further comprising, for a first island at least partially surrounding a second island such that parts of the first island are downwind and other parts of the first island are upwind of the second island, selecting to form at least part of the second island in between forming the downwind and upwind parts of the first island. 9. The method according to claim 1 , wherein the method is carried out by a computer. 10. A non-transitory data carrier having instructions stored thereon, the instructions, when executed by a processor, causing the processor to carry out the method of claim 1 . 11. A method of selecting a scanning sequence of a laser beam in a selective laser solidification process, in which one or more objects are formed layer-by-layer by repeatedly depositing a layer of powder on a powder bed and scanning the laser beam over the deposited powder to selectively solidify at least part of the powder layers, the method comprising determining an order in which areas should be scanned by: determining, based on a gas flow direction of a gas flow passed over the powder bed, a debris effected zone into which debris created by solidifying a first area would be carried by the gas flow; identifying at least one second area to be solidified that falls within the debris effected zone and is downstream of the first area in the gas flow direction; and selecting to solidify the at least one second area before solidifying the first area. 12. The method according to claim 11 , wherein boundaries of the debris effected zone are defined by parallel lines projected across the powder bed in the gas flow direction. 13. The method according to claim 11 , wherein boundaries of the debris effected zone are defined by diverging lines projected across the powder bed in the gas flow direction. 14. The method according to claim 11 , further comprising determining the order in which areas should be scanned by: determining, based on the gas flow direction, a further debris effected zone into which debris created by solidifying a third area would be carried by the gas flow; identifying at least one fourth area to be solidified that falls within the further debris effected zone and is downstream of the third area in the gas flow direction; and selecting to solidify the at least one fourth area before solidifying the third area. 15. The method according to claim 14 , wherein the debris effected zone and the further debris effected zone do not overlap. 16. A method of selecting a scanning sequence of a laser beam in a selective laser solidification process, in which one or more objects are formed layer-by-layer by repeatedly depositing a layer of powder on a powder bed and scanning the laser beam over the deposited powder to selectively solidify at least part of the powder layers, the method comprising determining an order in which areas should be scanned by: determining, based on a gas flow direction of a gas flow passed over the powder bed, a gas-borne debris zone into which debris created by solidifying a first area would be carried by the gas flow; identifying at least one second area to be solidified that falls within the gas-borne debris zone and is downstream of the first area in the gas flow direction; and selecting to solidify the at least one second area before solidifying the first area.