[{"author":[{"last_name":"Dahm","autoren_ansetzung":["Dahm, Thomas","Dahm","Thomas Dahm","Dahm, T","Dahm, T.","T Dahm","T. Dahm"],"id":"26138683","first_name":"Thomas","full_name":"Dahm, Thomas"},{"last_name":"TEWORDT","autoren_ansetzung":["TEWORDT, L","TEWORDT","L TEWORDT","TEWORDT, L","TEWORDT, L.","L TEWORDT","L. TEWORDT"],"first_name":"L","full_name":"TEWORDT, L"},{"full_name":"WERMBTER, S","first_name":"S","autoren_ansetzung":["WERMBTER, S","WERMBTER","S WERMBTER","WERMBTER, S","WERMBTER, S.","S WERMBTER","S. WERMBTER"],"last_name":"WERMBTER"}],"year":"1994","status":"public","department":[{"_id":"10028"},{"_id":"29105470"}],"date_submitted":"2011-09-16T09:19:30Z","issue":"5-6","publication_status":"published","type":"journal_article","date_created":"2011-09-07T07:05:10Z","isi":"1","id":"2330428","language":[{"iso":"eng"}],"volume":"96","page":"275-294","publication_identifier":{"issn":["0022-2291"],"eissn":["1573-7357"]},"intvolume":" 96","publication":"Journal of Low Temperature Physics","external_id":{"isi":["A1994PC24000004"]},"citation":{"lncs":" Dahm, T., TEWORDT, L., WERMBTER, S.: SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. Journal of Low Temperature Physics. 96, 275-294 (1994).","angewandte-chemie":"T. Dahm, L. TEWORDT, and S. WERMBTER, “SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS”, *Journal of Low Temperature Physics*, **1994**, *96*, 275-294.","default":"Dahm T, TEWORDT L, WERMBTER S (1994)

*Journal of Low Temperature Physics* 96(5-6): 275-294.","bio1":"Dahm T, TEWORDT L, WERMBTER S (1994)

SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS.

Journal of Low Temperature Physics 96(5-6): 275-294.","apa":"Dahm, T., TEWORDT, L., & WERMBTER, S. (1994). SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. *Journal of Low Temperature Physics*, *96*(5-6), 275-294. doi:10.1007/BF00754741","mla":"Dahm, Thomas, TEWORDT, L, and WERMBTER, S. “SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS”. *Journal of Low Temperature Physics* 96.5-6 (1994): 275-294.","frontiers":"Dahm, T., TEWORDT, L., and WERMBTER, S. (1994). SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. *Journal of Low Temperature Physics* 96, 275-294.","apa_indent":"Dahm, T., TEWORDT, L., & WERMBTER, S. (1994). SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. *Journal of Low Temperature Physics*, *96*(5-6), 275-294. doi:10.1007/BF00754741

","ieee":" T. Dahm, L. TEWORDT, and S. WERMBTER, “SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS”, *Journal of Low Temperature Physics*, vol. 96, 1994, pp. 275-294.","harvard1":"Dahm, T., TEWORDT, L., & WERMBTER, S., 1994. SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. *Journal of Low Temperature Physics*, 96(5-6), p 275-294.","dgps":"Dahm, T., TEWORDT, L. & WERMBTER, S. (1994). SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. *Journal of Low Temperature Physics*, *96*(5-6), 275-294. Springer-Verlag. doi:10.1007/BF00754741.

","chicago":"Dahm, Thomas, TEWORDT, L, and WERMBTER, S. 1994. “SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS”. *Journal of Low Temperature Physics* 96 (5-6): 275-294.

","ama":"Dahm T, TEWORDT L, WERMBTER S. SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS. *Journal of Low Temperature Physics*. 1994;96(5-6):275-294.","aps":" T. Dahm, L. TEWORDT, and S. WERMBTER, SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS, Journal of Low Temperature Physics **96**, 275 (1994).","wels":"Dahm, T.; TEWORDT, L.; WERMBTER, S. (1994): SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS *Journal of Low Temperature Physics*,96:(5-6): 275-294."},"extern":"1","title":"SELF-CONSISTENT CALCULATION OF PHYSICAL QUANTITIES FOR THE 2-DIMENSIONAL HUBBARD-MODEL AND COMPARISON WITH CUPRATE HIGH-TC SUPERCONDUCTORS","accept":"1","_id":"2330428","doi":"10.1007/BF00754741","publisher":"Springer-Verlag","date_updated":"2018-07-24T13:01:20Z","first_author":"Dahm, Thomas","article_type":"original","abstract":[{"text":"The conserving and self-consistent fluctuation-exchange approximation is used to calculate the quasi-particle self-energy and the dynamic spin susceptibility for the two-dimensional Hubbard model at band-fillings n somewhat below half-filling (n = 1). The spectral density of the spin susceptibility exhibits incommensurate peaks similar to those observed by neutron scattering in La2-xSrxCuO4. No spin-density-wave instability is found down to the lowest temperatures T (greater than or similar to 40 K) and up to the largest n (less than or similar to 0.85) and couplings U/t (less than or similar to 5) treated in this paper. For the same parameter space we calculate the eigenvalues of the superconducting eigen-solutions with d-wave and extended s-waves symmetry. These eigenvalues increase as T is decreased and n is increased, however, they are always far below unity which means that one is far from a superconducting transition. The calculated normal-state quantities are in qualitative agreement with the measured quantities of the cuprates, for example, the electrical resistivity is nearly a linear function of T like that of YBa2Cu3O7.","lang":"eng"}],"quality_controlled":"1"}]