Grain oriented electrical steel sheet

1 .- 4 . (canceled) 5 . A grain oriented electrical steel sheet comprising: a base steel sheet; a glass film which is arranged on the base steel sheet; and a tension-insulation coating which is arranged on the glass film, wherein an average chemical composition of the base steel sheet and the glass film includes by mass %: 0.010% or less of C; 2.5 to 4.0% of Si; 0.01 to 1.00% of Mn; 0.010% or less of N; 0.010% or less of sol Al; 0.005 to 0.030% of insol Al; 0.05 to 0.20% of Mg; 0.05 to 0.40% of O; 0 to 0.020% of Ti; 0.010% or less of S; 0.030% or less of P; 0 to 0.50% of Sn; 0 to 0.50% of Cr; 0 to 0.50% of Cu; 0 to 0.0100% of Bi; 0 to 0.020% of Se; 0 to 0.50% of Sb; and a balance consisting of Fe and impurities, and wherein, when glow emission spectroscopic spectrums of Al and Si are measured by conducting a glow discharge emission spectroscopy from a surface of the glass film toward a depth direction, when Ts which is an analysis starting time is regarded as the surface of the glass film, when T Al p is regarded as a time at which Al shows a maximum emission intensity, when F(T Al p ) is regarded as an Al emission intensity at the T Al p , when T Si p is regarded as a time at which Si shows a maximum emission intensity, and when F(T Si p ) is regarded as an Al emission intensity at the T Si p , the Ts, the T Al P , the F(T Al p ), the T Si p , and the F(T Si p ) satisfy 0.05≤F(T Si p )/F(T Al p )≤0.50 and 2.0≤(T Al p −Ts)/(T Si p −Ts)≤5.0. 6 . The grain oriented electrical steel sheet according to claim 5 , wherein a thickness of the base steel sheet is 0.17 mm or more and less than 0.22 mm. 7 . The grain oriented electrical steel sheet according to claim 5 , wherein the average chemical composition includes, by mass %, at least one selected from: 0.01 to 0.50% of Cr; 0.01 to 0.50% of Sn; 0.01 to 0.50% of Cu; 0.0010 to 0.0100% of Bi; 0.001 to 0.020% of Se; and 0.01 to 0.50% of Sb. 8 . The grain oriented electrical steel sheet according to claim 6 , wherein the average chemical composition includes, by mass %, at least one selected from: 0.01 to 0.50% of Cr; 0.01 to 0.50% of Sn; 0.01 to 0.50% of Cu; 0.0010 to 0.0100% of Bi; 0.001 to 0.020% of Se; and 0.01 to 0.50% of Sb. 9 . The grain oriented electrical steel sheet according to claim 5 , wherein, when glow emission spectroscopic spectrums of Al and Fe are measured by conducting a glow discharge emission spectroscopy from a surface of the glass film toward a depth direction, when T Al p is regarded as a time at which Al shows a maximum emission intensity, when T Fe 60 is regarded as a time at which an Fe emission intensity becomes 60% as compared with a saturation value of Fe emission intensity, and when T Fe 90 is regarded as a time at which an Fe emission intensity becomes 90% as compared with the saturation value of Fe emission intensity, the T Al P , the T Fe 60 , and the T Fe 90 satisfy T Fe 60 <T Al p ≤T Fe 90 . 10 . The grain oriented electrical steel sheet according to claim 6 , wherein, when glow emission spectroscopic spectrums of Al and Fe are measured by conducting a glow discharge emission spectroscopy from a surface of the glass film toward a depth direction, when T Al p is regarded as a time at which Al shows a maximum emission intensity, when T Fe 60 is regarded as a time at which an Fe emission intensity becomes 60% as compared with a saturation value of Fe emission intensity, and when T Fe 90 is regarded as a time at which an Fe emission intensity becomes 90% as compared with the saturation value of Fe emission intensity, the T Al P , the T Fe 60 , and the T Fe 90 satisfy T Fe 60 ≤T Al p ≤T Fe 90 . 11 . The grain oriented electrical steel sheet according to claim 7 , wherein, when glow emission spectroscopic spectrums of Al and Fe are measured by conducting a glow discharge emission spectroscopy from a surface of the glass film toward a depth direction, when T Al p is regarded as a time at which Al shows a maximum emission intensity, when T Fe 60 is regarded as a time at which an Fe emission intensity becomes 60% as compared with a saturation value of Fe emission intensity, and when T Fe 90 is regarded as a time at which an Fe emission intensity becomes 90% as compared with the saturation value of Fe emission intensity, the T Al P , the T Fe 60 , and the T Fe 90 satisfy T Fe 60 ≤T Al p ≤T Fe 90 . 12 . The grain oriented electrical steel sheet according to claim 8 , wherein, when glow emission spectroscopic spectrums of Al and Fe are measured by conducting a glow discharge emission spectroscopy from a surface of the glass film toward a depth direction, when T Al p is regarded as a time at which Al shows a maximum emission intensity, when T Fe 60 is regarded as a time at which an Fe emission intensity becomes 60% as compared with a saturation value of Fe emission intensity, and when T Fe 90 is regarded as a time at which an Fe emission intensity becomes 90% as compared with the saturation value of Fe emission intensity, the T Al P , the T Fe 60 , and the T Fe 90 satisfy T Fe 60 ≤T Al p ≤ T Fe 90 . 13 . A grain oriented electrical steel sheet comprising: a base steel sheet; a glass film which is arranged on the base steel sheet; and a tension-insulation coating which is arranged on the glass film, wherein an average chemical composition of the base steel sheet and the glass film includes by mass %: 0.010% or less of C; 2.5 to 4.0% of Si; 0.01 to 1.00% of Mn; 0.010% or less of N; 0.010% or less of sol Al; 0.005 to 0.030% of insol Al; 0.05 to 0.20% of Mg; 0.05 to 0.40% of O; 0 to 0.020% of Ti; 0.010% or less of S; 0.030% or less of P; 0 to 0.50% of Sn; 0 to 0.50% of Cr; 0 to 0.50% of Cu; 0 to 0.0100% of Bi; 0 to 0.020% of Se; 0 to 0.50% of Sb; and a balance comprising Fe and impurities, and wherein, when glow emission spectroscopic spectrums of Al and Si are measured by conducting a glow discharge emission spectroscopy from a surface of the glass film toward a depth direction, when Ts which is an analysis starting time is regarded as the surface of the glass film, when T Al p is regarded as a time at which Al shows a maximum emission intensity, when F(T Al p ) is regarded as an Al emission intensity at the T Al p , when T Si p is regarded as a time at which Si shows a maximum emission intensity, and when F(T Si p ) is regarded as an Al emission intensity at the T Si p , the Ts, the T Al P , the F(T Al p ), the T Si p , and the F(T Si p ) satisfy 0.05≤F(T Si p )/F(T Al p )≤0.50 and 2.0≤(T Al p −Ts)/(T Si p −Ts)≤5.0.