Blast shield apparatus and method

What is claimed is: 1 . A blast shield apparatus comprising: a blast resistant blanket having a blanket edge and a blanket center region; a plurality of blanket magnets disposed near the blanket edge and distributed along the blanket edge; and a chamber having a first side facing the blast resistant blanket and coupled to the blanket center region of the blast resistant blanket, and a second side opposite from the first side and facing away from the blast resistant blanket; the chamber including a chamber interior to store a gas. 2 . The blast shield apparatus of claim 1 , wherein the blanket magnets are substantially evenly distributed along the blanket edge. 3 . The blast shield apparatus of claim 1 , wherein the blanket magnets comprise electromagnetics switchable between an activated state and a deactivated state. 4 . The blast shield apparatus of claim 1 , wherein the second side of the chamber has a pre-ripped surface. 5 . The blast shield apparatus of claim 4 , wherein the pre-ripped surface includes a plurality of slits including at least of one or more through slits through a thickness of the second side of the chamber or one or more partially through slits on the pre-ripped surface. 6 . The blast shield apparatus of claim 1 , wherein the second side of the chamber has a second side surface area larger than a surface area of an explosive device, the surface area of the explosive device being an upper surface area of an upper surface of the explosive device or an exposed surface area of an exposed surface of the explosive device. 7 . The blast shield apparatus of claim 1 , wherein the blast resistant blanket has a top side and a bottom side each having a surface area which is one to three orders of magnitude larger than a surface area of an explosive device, the surface area of the explosive device being an upper surface area of an upper surface of the explosive device or an exposed surface area of an exposed surface of the explosive device. 8 . The blast shield apparatus of claim 1 , wherein the blast resistant blanket has a top side and a bottom side each having a surface area which is one to two orders of magnitude larger than a first side surface area of the first side of the chamber. 9 . The blast shield apparatus of claim 1 , wherein the first side of the chamber is attached to the blanket center region of the blast resistant blanket. 10 . The blast shield apparatus of claim 1 , wherein the chamber includes a gas inlet to receive a flow of gas into the chamber interior of the chamber. 11 . A blast shield method comprising: placing a blast shield apparatus on top of an explosive device, the blast shield apparatus including a blast resistant blanket having a blanket edge and a blanket center region, a plurality of blanket magnets disposed near the blanket edge and distributed along the blanket edge, and a chamber having a first side facing the blast resistant blanket and coupled to the blanket center region of the blast resistant blanket, and a second side opposite from the first side and facing away from the blast resistant blanket and toward the explosive device, the second side disposed on top of the explosive device; filling the chamber with a gas; and detonating the explosive device. 12 . The blast shield method of claim 11 , further comprising, after detonating the explosive device to cause a bubble created by an expansion of the gas in the chamber to collapse, the blast resistant blanket to rise in the blanket center region, and the blanket edge of the blast resistant blanket to encapsulate debris and byproducts of the detonated explosive device: lowering a retrieval magnet to contact the blanket magnets to retrieve the debris and byproducts of the detonated explosive device encapsulated by the blast resistant blanket closed by the blanket magnets coming in contact with each other. 13 . The blast shield method of claim 11 , further comprising distributing the blanket magnets substantially evenly along the blanket edge and spreading the blanket magnets over an area around the explosive device. 14 . The blast shield method of claim 11 , wherein the blanket magnets are electromagnets, the method further comprising, prior to detonating the explosive device: switching the electromagnetics from an inactivated state to an activated state. 15 . The blast shield method of claim 11 , further comprising: pre-ripping the second side of the chamber to produce a pre-ripped surface facing the explosive device before placing the blast shield apparatus on top of the explosive device. 16 . The blast shield method of claim 11 , wherein the second side of the chamber has a second side surface area larger than a surface area of the explosive device, the surface area of the explosive device being an upper surface area of an upper surface of the explosive device or an exposed surface area of an exposed surface of the explosive device. 17 . The blast shield method of claim 11 , wherein the blast resistant blanket has a top side and a bottom side each having a surface area which is one to three orders of magnitude larger than a surface area of the explosive device, the surface area of the explosive device being an upper surface area of an upper surface of the explosive device or an exposed surface area of an exposed surface of the explosive device. 18 . The blast shield method of claim 11 , wherein the blast resistant blanket has a top side and a bottom side each having a surface area which is one to two orders of magnitude larger than a first side surface area of the first side of the chamber. 19 . The blast shield method of claim 11 , further comprising: attaching the first side of the chamber to the blanket center region of the blast resistant blanket. 20 . A blast shield apparatus comprising: a blast resistant blanket having a blanket edge and a blanket center region; a plurality of blanket magnets disposed near the blanket edge and distributed along the blanket edge; a chamber having a first side facing the blast resistant blanket and coupled to the blanket center region of the blast resistant blanket, and a second side opposite from the first side and facing away from the blast resistant blanket, the chamber including a chamber interior to store a gas; and means for, after an explosion causes a bubble created by an expansion of the gas in the chamber to collapse and the blast resistant blanket to rise in the blanket center region relative to the blanket edge, to close the blast resistant blanket at the blanket edge to encapsulate explosion debris and byproducts of the explosion.