Abstract: A device portion forming step includes an assisting layer forming step of forming a planarization assisting layer, which covers a plurality of conductive films, over a first planarizing layer before forming a second planarizing layer. In the assisting layer forming step, the planarization assisting layer is formed so that a height of the planarization assisting layer from a surface of the first planarizing layer located on a side opposite to the substrate layer becomes equal between at least a part of a region where the conductive films are formed, and at least a part of a region where no conductive film is formed.

Abstract: A device portion forming step includes an assisting layer forming step of forming a planarization assisting layer, which covers a plurality of conductive films, over a first planarizing layer before forming a second planarizing layer. In the assisting layer forming step, the planarization assisting layer is formed so that a height of the planarization assisting layer from a surface of the first planarizing layer located on a side opposite to the substrate layer becomes equal between at least a part of a region where the conductive films are formed, and at least a part of a region where no conductive film is formed.

Abstract: A hydrogen (H) exfoliation gettering method is provided for attaching fabricated circuits to receiver substrates. The method comprises: providing a Si substrate; forming a Si active layer overlying the substrate with circuit source/drain (S/D) regions; implanting a p-dopant into the S/D regions; forming gettering regions underling the S/D regions; implanting H in the Si substrate, forming a cleaving plane (peak concentration (Rp) H layer) in the Si substrate about as deep as the gettering regions; bonding the circuit to a receiver substrate; cleaving the Si substrate along the cleaving plane; and binding the implanted H underlying the S/D regions with p-dopant in the gettering regions, as a result of post-bond annealing.

Abstract: A hydrogen (H) exfoliation gettering method is provided for attaching fabricated circuits to receiver substrates. The method comprises: providing a Si substrate; forming a Si active layer overlying the substrate with circuit source/drain (S/D) regions; implanting a p-dopant into the S/D regions; forming gettering regions underling the S/D regions; implanting H in the Si substrate, forming a cleaving plane (peak concentration (Rp) H layer) in the Si substrate about as deep as the gettering regions; bonding the circuit to a receiver substrate; cleaving the Si substrate along the cleaving plane; and binding the implanted H underlying the S/D regions with p-dopant in the gettering regions, as a result of post-bond annealing.

Abstract: In a semiconductor device including an insulative substrate and a thin film device formed thereon, a thin film transistor having a non-single crystalline silicon thin film and a transistor having a single crystalline silicon thin film are intermixed, and a gate electrode film of the thin film transistor having single crystalline silicon is made of a material including a metal whose mass number is larger than that of silicon or a compound containing the metal.