Abstract
In this chapter we discuss various results of operator theory, functional analysis, mathematical physics, and noncommutative geometry that rely on methods of multiple operator integration.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
A. Abdessemed, E.B. Davies, Some commutator estimates in the Schatten classes. J. Lond. Math. Soc. 39, 299–308 (1989)
V.M. Adamjan, H. Neidhardt, On the summability of the spectral shift function for pair of contractions and dissipative operators. J. Oper. Theory 24(1), 187–205 (1990)
V.M. Adamjan, B.S. Pavlov, Trace formula for dissipative operators. Vestn. Leningr. Univ. Mat. Mekh. Astronom. 7(2), 5–9 (1979, in Russian)
A.B. Aleksandrov, V.V. Peller, Functions of operators under perturbations of class \({\mathcal {S}}^p\). J. Funct. Anal. 258(11), 3675–3724 (2010)
A.B. Aleksandrov, V.V. Peller, Operator Hölder-Zygmund functions. Adv. Math. 224(3), 910–966 (2010)
A.B. Aleksandrov, V.V. Peller, Functions of perturbed dissipative operators. Algebra i Analiz 23(2), 9–51 (2011). Translation: St. Petersburg Math. J. 23(2), 209–238 (2012)
A.B. Aleksandrov, V.V. Peller, Trace formulae for perturbations of class Sm. J. Spectral Theory 1(1), 1–26 (2011)
A.B. Aleksandrov, V.V. Peller, Estimates of operator moduli of continuity. J. Funct. Anal. 261, 2741–2796 (2011)
A.B. Aleksandrov, V.V. Peller, Operator Lipschitz functions. Uspekhi Mat. Nauk 71(4(430)), 3–106 (2016, in Russian). Translation: Russ. Math. Surv. 71(4), 605–702 (2016)
A.B. Aleksandrov, V.V. Peller, Krein’s trace formula for unitary operators and operator Lipschitz functions. Funct. Anal. Appl. 50(3) 167–175 (2016)
A.B. Aleksandrov, V.V. Peller, Multiple operator integrals, Haagerup and Haagerup-like tensor products, and operator ideals. Bull. Lond. Math. Soc. 49, 463–479 (2017)
A.B. Aleksandrov, V.V. Peller, Dissipative operators and operator Lipschitz functions. Proc. Am. Math. Soc. 147(5), 2081–2093 (2019)
A.B. Aleksandrov, V.V. Peller, D. Potapov, F.A. Sukochev, Functions of normal operators under perturbations. Adv. Math. 226(6), 5216–5251 (2011)
A.B. Aleksandrov, F.L. Nazarov, V.V. Peller, Functions of noncommuting self-adjoint operators under perturbation and estimates of triple operator integrals. Adv. Math. 295, 1–52 (2016)
J. Arazy, Some remarks on interpolation theorems and the boundness of the triangular projection in unitary matrix spaces. Integr. Equ. Oper. Theory 1, 453–495 (1978)
J. Arazy, L. Zelenko, Directional operator differentiability of non-smooth functions. J. Oper. Theory 55(1), 49–90 (2006)
J. Arazy, T.J. Barton, Y. Friedman, Operator differentiable functions. Integr. Equ. Oper. Theory 13(4), 462–487 (1990)
M.F. Atiyah, V.K. Patodi, I.M. Singer, Spectral asymmetry and Riemannian geometry. III. Math. Proc. Camb. Philos. Soc. 79(1), 71–99 (1976)
P.J. Ayre, M.G. Cowling, F.A. Sukochev, Operator Lipschitz estimates in the unitary setting. Proc. Am. Math. Soc. 144(3), 1053–1057 (2016)
N.A. Azamov, P.G. Dodds, F.A. Sukochev, The Krein spectral shift function in semifinite von Neumann algebras. Integr. Equ. Oper. Theory 55, 347–362 (2006)
N.A. Azamov, A.L. Carey, F.A. Sukochev, The spectral shift function and spectral flow. Commun. Math. Phys. 276(1), 51–91 (2007)
N.A. Azamov, A.L. Carey, P.G. Dodds, F.A. Sukochev, Operator integrals, spectral shift, and spectral flow. Can. J. Math. 61(2), 241–263 (2009)
M.-T. Benameur, A.L. Carey, J. Phillips, A. Rennie, F.A. Sukochev, K.P. Wojciechowski, An analytic approach to spectral flow in von Neumann algebras, in Analysis, Geometry and Topology of Elliptic Operators (World Scientific Publishing, Hackensack, 2006), pp. 297–352
G. Bennett, Unconditional convergence and almost everywhere convergence. Z. Wahrsch. Verw. Geb. 34(2), 135–155 (1976)
G. Bennett, Schur multipliers. Duke Math. J. 44(3), 603–639 (1977)
P.H. Bérard, Spectral Geometry: Direct and Inverse Problems. Lecture Notes in Mathematics, vol. 1207 (Springer, Berlin, 1986)
M.Sh. Birman, A.B. Pushnitski, Spectral shift function, amazing and multifaceted. Dedicated to the memory of Mark Grigorievich Krein (1907–1989). Integr. Equ. Oper. Theory 30(2), 191–199 (1998)
M.S. Birman, M.Z. Solomyak, Double Stieltjes Operator Integrals III. Problems of Mathematical Physics, vol. 6 (Leningrad University, Leningrad, 1973, in Russian), pp. 27–53
M.S. Birman, M.Z. Solomyak, Remarks on the spectral shift function. J. Sov. Math. 3, 408–419 (1975)
M.S. Birman, M.Z. Solomyak, Double operator integrals in a Hilbert space. Integr. Equ. Oper. Theory 47(2), 131–168 (2003)
M.S. Birman, D.R. Yafaev, The spectral shift function. The papers of M. G. Krein and their further development. Algebra i Analiz 4(5), 1–44 (1992, in Russian). Translation: St. Petersburg Math. J. 4(5), 833–870 (1993)
R. Bonic, J. Frampton, Smooth functions on Banach manifolds. J. Math. Mech. 15(5), 877–898 (1966)
A. Carey, J. Phillips, Unbounded Fredholm modules and spectral flow. Can. J. Math. 50(4), 673–718 (1998)
A. Carey, J. Phillips, Spectral flow in Fredholm modules, eta invariants and the JLO cocycle. K-Theory 31(2), 135–194 (2004)
R.W. Carey, J.D. Pincus, Mosaics, principal functions, and mean motion in von Neumann algebras. Acta Math. 138, 153–218 (1977)
M. Caspers, D. Potapov, F. Sukochev, D. Zanin, Weak type commutator and Lipschitz estimates: resolution of the Nazarov-Peller conjecture. Am. J. Math. 141(3), 593–610 (2019)
A. Chattopadhyay, A. Skripka, Trace formulas for relative Schatten class perturbations. J. Funct. Anal. 274, 3377–3410 (2018)
C. Coine, Perturbation theory and higher order \({\mathcal {S}}^p\)-differentiability of operator functions (2019). arXiv:1906.05585
C. Coine, C. Le Merdy, D. Potapov, F. Sukochev, A. Tomskova, Resolution of Peller’s problem concerning Koplienko-Neidhardt trace formula. Proc. Lond. Math. Soc. (3) 113(2), 113–139 (2016)
C. Coine, C. Le Merdy, D. Potapov, F. Sukochev, A. Tomskova, Peller’s problem concerning Koplienko-Neidhardt trace formula: the unitary case. J. Funct. Anal. 271(7), 1747–1763 (2016)
C. Coine, C. Le Merdy, A. Skripka, F. Sukochev, Higher order \({\mathcal {S}}^2\)-differentiability and application to Koplienko trace formula. J. Funct. Anal. 276(10), 3170–3204 (2019)
A. Connes, Noncommutative Geometry (Academic, San Diego, 1994)
A. Connes, D. Sullivan, N. Teleman, Quasiconformal mappings, operators on Hilbert space, and local formulae for characteristic classes. Topology 33(4), 663–681 (1994)
H.G. Dales, Banach Algebras and Automatic Continuity. Mathematical Society Monographs (Oxford University Press, London, 2000)
Yu.L. Daletskii, S.G. Krein, Integration and differentiation of functions of Hermitian operators and application to the theory of perturbations. Trudy Sem. Functsion. Anal. Voronezh. Gos. Univ. 1, 81–105 (1956, in Russian)
E.B. Davies, Lipschitz continuity of functions of operators in the Schatten classes. J. Lond. Math. Soc. 37, 148–157 (1988)
B. de Pagter, F. Sukochev, Differentiation of operator functions in non-commutative Lp-spaces. J. Funct. Anal. 212(1), 28–75 (2004)
J. Diestel, H. Jarchow, A. Tonge, Absolutely Summing Operators. Cambridge Studies in Advanced Mathematics, vol. 43 (Cambridge University Press, Cambridge, 1995)
P.G. Dodds, T.K. Dodds, B. de Pagter, Fully symmetric operator spaces. Integr. Equ. Oper. Theory 15(6), 942–972 (1992)
P.G. Dodds, T.K. Dodds, B. de Pagter, F.A. Sukochev, Lipschitz continuity of the absolute value and Riesz projections in symmetric operator spaces. J. Funct. Anal. 148(1), 28–69 (1997)
K. Dykema, N.J. Kalton, Sums of commutators in ideals and modules of type II factors. Ann. Inst. Fourier (Grenoble) 55(3), 931–971 (2005)
K. Dykema, A. Skripka, Higher order spectral shift. J. Funct. Anal. 257, 1092–1132 (2009)
K. Dykema, A. Skripka, Perturbation formulas for traces on normed ideals. Commun. Math. Phys. 325(3), 1107–1138 (2014)
Yu.B. Farforovskaya, An example of a Lipschitz function of selfadjoint operators that yields a non-nuclear increase under a nuclear perturbation. J. Sov. Math. 4, 426–433 (1975, in Russian)
Yu.B. Farforovskaja, An estimate of the norm of |f(B) − f(A)| for selfadjoint operators A and B, Investigations on linear operators and theory of functions, VI. Zap. Nauchn. Sem. Leningrad. Otdel. Mat. Inst. Steklov. (LOMI) 56, 143–162 (1976). J. Soviet Math. 14(2), 1133–1149 (1980, in Russian)
C.K. Fong, G.J. Murphy, Ideals and Lie ideals of operators. Acta Sci. Math. 51, 441–456 (1987)
F. Gesztesy, A. Pushnitski, B. Simon, On the Koplienko spectral shift function. I. Basics. Zh. Mat. Fiz. Anal. Geom. 4(1), 63–107 (2008)
E. Getzler, The odd Chern character in cyclic homology and spectral flow. Topology 32(3), 489–507 (1993)
I.C. Gohberg, M.G. Krein, Introduction to the Theory of Linear Nonselfadjoint Operators. Translations of Mathematical Monographs, vol. 18 (American Mathematical Society, Providence, 1969)
F. Hiai, Matrix analysis: matrix monotone functions, matrix means and majorization. Interdiscip. Inf. Sci. 16(2), 139–248 (2010)
S. Janson, T.H. Wolff, Schatten classes and commutators of singular integral operators. Ark. Mat. 20(2), 301–310 (1982)
B.E. Johnson, J.P. Williams, The range of normal derivations. Pac. J. Math. 58, 105–122 (1975)
M. Junge, Z-J. Ruan, Q. Xu, Rigid \(\mathcal {O}\mathcal {L}_p\) structures of non-commutative Lp-spaces associated with hyperfinite von Neumann algebras. Math. Scand. 96, 63–95 (2005)
T. Kato, Continuity of the map S↦|S| for linear operators. Proc. Jpn. Acad. 49, 157–160 (1973)
T. Kato, Perturbation Theory for Linear Operators. Classics in Mathematics (Springer, Berlin, 1995)
E. Kissin, V.S. Shulman, On the range inclusion of normal derivations: variations on a theme by Johnson, Williams and Fong. Proc. Lond. Math. Soc. 83, 176–198 (2001)
E. Kissin, V.S. Shulman, Classes of operator-smooth functions. II. Operator-differentiable functions. Integr. Equ. Oper. Theory 49(2), 165–210 (2004)
E. Kissin, V.S. Shulman, Classes of operator-smooth functions. I. Operator-Lipschitz functions. Proc. Edinb. Math. Soc. 48, 151–173 (2005)
E. Kissin, V.S. Shulman, Classes of operator-smooth functions. III Stable functions and Fuglede ideals. Proc. Edinb. Math. Soc. 48, 175–197 (2005)
E. Kissin, V.S. Shulman, Lipschitz functions on Hermitian Banach *-algebras. Q. J. Math. 57, 215–239 (2006)
E. Kissin, V.S. Shulman, On fully operator Lipschitz functions. J. Funct. Anal. 253(2), 711–728 (2007)
E. Kissin, V.S. Shulman, Functions acting on symmetrically normed ideals and on the domains of derivations on these ideals. J. Oper. Theory 57(1), 63–82 (2007)
E. Kissin, V.S. Shulman, L.B. Turowska, Extension of operator Lipschitz and commutator bounded functions. Oper. Theory Adv. Appl. 171, 225–244 (2006)
E. Kissin, D. Potapov, V. Shulman, F. Sukochev, Operator smoothness in Schatten norms for functions of several variables: Lipschitz conditions, differentiability and unbounded derivations. Proc. Lond. Math. Soc. 108(3), 327–349 (2014)
L.S. Koplienko, Trace formula for perturbations of nonnuclear type. Sibirsk. Mat. Zh. 25, 62–71 (1984, in Russian). Translation: Siberian Math. J. 25, 735–743 (1984)
H. Kosaki, Applications of uniform convexity of noncommutative Lp-spaces. Trans. Am. Math. Soc. 283(1), 265–282 (1984)
M.G. Krein, On a trace formula in perturbation theory. Mat. Sbornik 33, 597–626 (1953, in Russian)
M.G. Krein, On the perturbation determinant and the trace formula for unitary and self-adjoint operators. Dokl. Akad. Nauk SSSR 144, 268–271 (1962, in Russian). Translation: Soviet Math. Dokl. 3, 707–710 (1962)
M.G. Krein, Some new studies in the theory of perturbations of self-adjoint operators. 1964 First Mathematical Summer School, Part I, pp. 103–187 Izdat. “Naukova Dumka”, Kiev (1964, in Russian)
M.G. Krein, On perturbation determinants and a trace formula for certain classes of pairs of operators. J. Oper. Theory 17(1), 129–187 (1987, in Russian). Translation: Am. Math. Soc. Trans. 145(2), 39–84 (1989)
H. Langer, Eine Erweiterung der Spurformel der Stoërungstheorie. Math. Nachr. 30, 123–135 (1965, in German)
C. Le Merdy, A. Skripka, Higher order differentiability of operator functions in Schatten norms. J. Inst. Math. Jussieu. https://doi.org/10.1017/S1474748019000033
I.M. Lifshits, On a problem of the theory of perturbations connected with quantum statistics. Uspehi Mat. Nauk (N.S.) 7(1(47)), 171–180 (1952, in Russian)
S. Lord, E. McDonald, F. Sukochev, D. Zanin, Quantum differentiability of essentially bounded functions on Euclidean space. J. Funct. Anal. 273(7), 2353–2387 (2017)
K.A. Makarov, A. Skripka, M. Zinchenko, On perturbation determinant for antidissipative operators. Integr. Equ. Oper. Theory 81(3), 301–317 (2015)
M.M. Malamud, H. Neidhardt, Trace formulas for additive and non-additive perturbations. Adv. Math. 274, 736–832 (2015)
M.M. Malamud, H. Neidhardt, V.V. Peller, Analytic operator Lipschitz functions in the disk and a trace formula for functions of contractions. Funct. Anal. Appl. 51(3), 33–55 (2017)
M.M. Malamud, H. Neidhardt, V.V. Peller, Absolute continuity of spectral shift. J. Funct. Anal. 276(5), 1575–1621 (2019)
A. McIntosh, Counterexample to a question on commutators. Proc. Am. Math. Soc. 29, 337–340 (1971)
H. Neidhardt, Scattering matrix and spectral shift of the nuclear dissipative scattering theory, in Operators in Indefinite Metric Spaces, Scattering Theory and Other Topics (Bucharest, 1985). Operator Theory Advances and Applications, vol. 24 (Birkhäuser, Basel, 1987), pp. 237–250
H. Neidhardt, Scattering matrix and spectral shift of the nuclear dissipative scattering theory II. J. Oper. Theory 19(1), 43–62 (1988)
H. Neidhardt, Spectral shift function and Hilbert-Schmidt perturbation: extensions of some work of L.S. Koplienko. Math. Nachr. 138, 7–25 (1988)
V.V. Peller, Hankel operators in the theory of perturbations of unitary and selfadjoint operators. Funktsional. Anal. i Prilozhen. 19(2), 37–51 (1985, in Russian). Translation: Funct. Anal. Appl. 19, 111–123 (1985)
V.V. Peller, Hankel operators in the perturbation theory of unbounded selfadjoint operators, in Analysis and Partial Differential Equations. Lecture Notes in Pure and Applied Mathematics, vol. 122 (Dekker, New York, 1990), pp. 529–544
V.V. Peller, Hankel Operators and their Applications. Springer Monographs in Mathematics (Springer, New York, 2003)
V.V. Peller, An extension of the Koplienko-Neidhardt trace formulae. J. Funct. Anal. 221, 456–481 (2005)
V.V. Peller, Multiple operator integrals and higher operator derivatives. J. Funct. Anal. 233(2), 515–544 (2006)
V.V. Peller, Differentiability of functions of contractions, in Linear and Complex Analysis. American Mathematical Society Translations: Series 2, vol. 226, Advances in the Mathematical Sciences, vol. 63 (American Mathematical Society, Providence, 2009), pp. 109–131
V.V. Peller, The Lifshits-Krein trace formula and operator Lipschitz functions. Proc. Am. Math. Soc. 144(12), 5207–5215 (2016)
V.V. Peller, Multiple operator integrals in perturbation theory. Bull. Math. Sci. 6, 15–88 (2016)
J. Phillips, Self-adjoint Fredholm operators and spectral flow. Can. Math. Bull. 39(4), 460–467 (1996)
J. Phillips, Spectral flow in type I and II factors – a new approach. Fields Inst. Commun. 17, 137–153 (1997). American Mathematical Society, Providence
G. Pisier, Q. Xu, Non-commutativeLp-spaces. Handbook of the Geometry of Banach Spaces, vol. 2 (North-Holland, Amsterdam, 2003), pp. 1459–1517
D. Potapov, F. Sukochev, Lipschitz and commutator estimates in symmetric operator spaces. J. Oper. Theory 59(1), 211–234 (2008)
D. Potapov, F. Sukochev, Operator-Lipschitz functions in Schatten-von Neumann classes. Acta Math. 207(2), 375–389 (2011)
D. Potapov, F. Sukochev, Koplienko spectral shift function on the unit circle. Commun. Math. Phys. 309, 693–702 (2012)
D. Potapov, F. Sukochev, Fréchet differentiability of Sp norms. Adv. Math. 262, 436–475 (2014)
D. Potapov, A. Skripka, F. Sukochev, On Hilbert-Schmidt compatibility. Oper. Matrices 7(1), 1–34 (2013)
D. Potapov, A. Skripka, F. Sukochev, Spectral shift function of higher order. Invent. Math. 193(3), 501–538 (2013)
D. Potapov, A. Skripka, F. Sukochev, Spectral shift function of higher order for contractions. Proc. Lond. Math. Soc. 108(3), 327–349 (2014)
D. Potapov, F. Sukochev, D. Zanin, Krein’s trace theorem revisited. J. Spectr. Theory 4(2), 415–430 (2014)
D. Potapov, A. Skripka, F. Sukochev, Trace formulas for resolvent comparable operators. Adv. Math. 272, 630–651 (2015)
D. Potapov, F. Sukochev, A. Usachev, D. Zanin, Singular traces and perturbation formulae of higher order. J. Funct. Anal. 269(5), 1441–1481 (2015)
D. Potapov, A. Skripka, F. Sukochev, Functions of unitary operators: derivatives and trace formulas. J. Funct. Anal. 270(6), 2048–2072 (2016)
D. Potapov, A. Skripka, F. Sukochev, A. Tomskova, Multilinear Schur multipliers and applications to operator Taylor remainders. Adv. Math. 320, 1063–1098 (2017)
D. Potapov, F. Sukochev, A. Tomskova, D. Zanin, Fréchet differentiability of the norm of Lp-spaces associated with arbitrary von Neumann algebras. Trans. Am. Math. Soc. 371(11), 7493–7532 (2019)
M. Reed, B. Simon, Methods of Modern Mathematical Physics. I. Functional Analysis, 2nd edn. (Academic, New York, 1980)
R. Rochberg, S. Semmes, Nearly weakly orthonormal sequences, singular value estimates, and Calderon-Zygmund operators. J. Funct. Anal. 86(2), 237–306 (1989)
J. Rozendaal, F. Sukochev, A. Tomskova, Operator Lipschitz functions on Banach spaces. Stud. Math. 232(1), 57–92 (2016)
A.V. Rybkin, The spectral shift function for a dissipative and a selfadjoint operator, and trace formulas for resonances. Mat. Sb. (N.S.) 125(167)(3), 420–430 (1984, in Russian)
A.V. Rybkin, A trace formula for a contractive and a unitary operator. Funktsional. Anal. i Prilozhen. 21(4), 85–87 (1987, in Russian)
A.V. Rybkin, On A-integrability of the spectral shift function of unitary operators arising in the Lax-Phillips scattering theory. Duke Math. J. 83(3), 683–699 (1996)
L.A. Sahnovic̆, Dissipative operators with absolutely continuous spectrum. Trudy Moskov. Mat. Obs̆c̆. 19, 211–270 (1968, in Russian)
J.T. Schwartz, Nonlinear Functional Analysis (Gordon and Breach Science Publishers, New York, 1969)
V.S. Shulman, Some remarks on Fuglede-Weiss theorem. Bull. Lond. Math. Soc. 28, 385–392 (1996)
B. Simon, Trace Ideals and Their Applications. Mathematical Surveys and Monographs, 2nd edn., vol. 120 (American Mathematical Society, Providence, 2005)
A. Skripka, On properties of the ξ-function in semi-finite von Neumann algebras. Integr. Equ. Oper. Theory 62(2), 247–267 (2008)
A. Skripka, Trace inequalities and spectral shift. Oper. Matrices 3(2), 241–260 (2009)
A. Skripka, Higher order spectral shift, II. Unbounded case. Indiana Univ. Math. J. 59(2), 691–706 (2010)
A. Skripka, Multiple operator integrals and spectral shift. Illinois J. Math. 55(1), 305–324 (2011)
A. Skripka, Taylor approximations of operator functions, in Operator Theory in Harmonic and Non-commutative Analysis. Operator Theory Advances and Applications, vol. 240 (Birkhäuser, Basel, 2014), pp. 243–256
A. Skripka, Asymptotic expansions for trace functionals. J. Funct. Anal. 266(5), 2845–2866 (2014)
A. Skripka, Trace formulas for multivariate operator functions. Integr. Equ. Oper. Theory 81(4), 559–580 (2015)
A. Skripka, Estimates and trace formulas for unitary and resolvent comparable perturbations. Adv. Math. 311, 481–509 (2017)
A. Skripka, On positivity of spectral shift functions. Linear Algebra Appl. 523, 118–130 (2017)
A. Skripka, Taylor asymptotics of spectral action functionals. J. Oper. Theory 80(1), 113–124 (2018)
A. Skripka, M. Zinchenko, Stability and uniqueness properties of Taylor approximations of matrix functions. Linear Algebra Appl. 582, 218–236 (2019)
A. Skripka, M. Zinchenko, On uniqueness of higher order spectral shift functions. Stud. Math. (2019). https://doi.org//10.4064/sm181007-1-1
E.M. Stein, G. Weiss, Introduction to Fourier Analysis on Euclidean Spaces. Princeton Mathematical Series, no. 32 (Princeton University Press, Princeton, 1971)
V.V. Sten’kin, Multiple operator integrals. Izv. Vysš. Učebn. Zaved. Mat. 179(4), 102–115 (1977, in Russian)
K. Sundaresan, Smooth Banach spaces. Math. Ann. 173, 191–199 (1967)
N. Tomczak-Jaegermann, On the Differentiability of the Norm in Trace ClassesSp. Séminaire Maurey-Schwartz 1974–1975: Espaces Lp, applications radonifiantes et géométrie des espaces de Banach, Exp. No. XXII (Centre Math., École Polytech., Paris, 1975), 9 pp.
A. Tomskova, Representation of operator Taylor remainders via multilinear Schur multipliers, preprint
M. Terp, Lp-spaces Associated with von Neumann Algebras. Notes, Math. Institute (Copenhagen University, Copenhagen, 1981)
W. van Ackooij, B. de Pagter, F.A. Sukochev, Domains of infinitesimal generators of automorphism flows. J. Funct. Anal. 218(2), 409–424 (2005)
G. Weiss, The Fuglede commutativity theorem modulo the Hilbert-Schmidt class and generating functions for matrix operators, I. Trans. Am. Math. Soc. 246, 193–209 (1978)
H. Widom, When are differentiable functions differentiable?, in Linear and Complex Analysis Problem Book, 199 Research Problems. Lecture Notes in Mathematics, vol. 1043 (Springer, Berlin, 1983), pp. 184–188
J.P. Williams, Derivation ranges: open problems, in Topics on Modern Operator Theory. Operator Theory: Advances and Applications, vol. 2 (Birkhäuser, Basel, 1981), pp. 319–329
D.R. Yafaev, Mathematical Scattering Theory. General Theory. Translations of Mathematical Monographs, vol. 105 (American Mathematical Society, Providence, 1992)
D.R. Yafaev, A trace formula for the Dirac operator. Bull. Lond. Math. Soc. 37(6), 908–918 (2005)
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Skripka, A., Tomskova, A. (2019). Applications. In: Multilinear Operator Integrals. Lecture Notes in Mathematics, vol 2250. Springer, Cham. https://doi.org/10.1007/978-3-030-32406-3_5
Download citation
DOI: https://doi.org/10.1007/978-3-030-32406-3_5
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-32405-6
Online ISBN: 978-3-030-32406-3
eBook Packages: Mathematics and StatisticsMathematics and Statistics (R0)