ReferencesN. V. Trunov“$L_p$ spaces associated with a weight on a semifinite von Neumann algebra”, Konstr. Teor. Funkts. Funkts. Anal., 1981, Issue 3,Pages 88



References

1.	Sigal I. E., “Nekommutativnoe obobschenie abstraktnogo integrirovaniya”, Matematika (sb. perevodov), 6:1 (1962), 65–132
2.	Trunov N. V., Sherstnev A. N., “K obschei teorii integrirovaniya v algebrakh operatorov otnositelno vesa, 1”, Izv. vuzov. Matem., 1978, no. 7, 79–88
3.	Trunov N. V., Lokalno konechnye vesa na algebrakh Neimana, Rukopis dep. v VINITI 10 yanv. 1979 g., № 101-79 Dep., Kazan. un-t, Kazan, 1978, 24 pp.
4.	Trunov N. V., “O nekommutativnom analoge prostranstva $L_2$”, Konstruktivnaya teoriya funktsii i funkts. analiz, Izd-vo Kazan. un-ta, Kazan, 1979, 93–114
5.	Trunov N. V., “O nekommutativnom analoge prostranstva $L_p$”, Izv. vuzov. Matem., 1979, no. 11, 69–77
6.	Dixmier J., “Formes lineaires sur un anneau d'operateurs”, Bull. Soc. math. France, 81:1 (1953), 9–39
7.	Dye H. A., “The Radon–Nikodym theorem for finite rings of operators”, Trans. Amer. Math. Soc., 72:2 (1952), 243–280
8.	Kunze R., “$L_p$ Fourier transforms on locally compact unimodular groups”, Trans. Amer. Math. Soc., 89:2 (1958), 519–540
9.	Pedersen G. K., Takesaki M., “The Radon–Nikodym theorem for von Neumann algebras”, Acta math., 130:1-2 (1973), 53–87
10.	Yeadon F. J., “Non-commutative $L^p$-spaces”, Math. Cambridge Phil. Soc., 77:1 (1975), 91–102