Matt, C. E.Fatuzzo, C. G.Sassa, Y.Mansson, M.Fatale, S.Bitetta, V.Shi, X.Pailhes, S.Berntsen, M. H.Kurosawa, T.Oda, M.Momono, N.Lipscombe, O. J.Hayden, S. M.Yan, J. -Q.Zhou, J. -S.Goodenough, J. B.Pyon, S.Takayama, T.Takagi, H.Patthey, L.Bendounan, A.Razzoli, E.Shi, M.Plumb, N. C.Radovic, M.Grioni, M.Mesot, J.Tjernberg, O.Chang, J.2015-12-022015-12-022015-12-02201510.1103/PhysRevB.92.134524https://infoscience.epfl.ch/handle/20.500.14299/121067WOS:000363518800002We report an angle-resolved photoemission study of the charge stripe ordered La1.6-xNd0.4SrxCuO4 (Nd-LSCO) system. A comparative and quantitative line-shape analysis is presented as the system evolves from the overdoped regime into the charge ordered phase. On the overdoped side (x = 0.20), a normal-state antinodal spectral gap opens upon cooling below 80 K. In this process, spectral weight is preserved but redistributed to larger energies. A correlation between this spectral gap and electron scattering is found. A different line shape is observed in the antinodal region of charge ordered Nd-LSCO x = 1/8. Significant low-energy spectral weight appears to be lost. These observations are discussed in terms of spectral-weight redistribution and gapping originating from charge stripe ordering.text::journal::journal article::research article