Relevant books/proceedings:
-
Computer
Algebra in Quantum Field Theory: Integration, Summation
and Special Functions, C. Schneider and J. Blümlein
(ed.), Texts and Monographs in Symbolic Computation,
Springer (411 pp), 2013
-
Proceedings of RADCOR
2017 - 13th International Symposium on Radiative
Corrections (Applications of Quantum Field Theory to
Phenomenology). A. Hoang and C. Schneider (ed.).
Proceedings of Science, 290, 2017.
-
Advances
in Computer Algebra, C. Schneider and E. Zima
(ed.)., Springer Proceedings in Mathematics &
Statistics 226, Springer (280 pp), 2018.
-
Elliptic
Integrals, Elliptic Functions and Modular Forms in
Quantum Field Theory, J. Blümlein, P. Paule and C.
Schneider (ed.). Texts and Monographs in Symbolic
Computuation, Springer (509 pp), 2019
-
Algorithmic
Combinatorics: Enumerative Combinatorics, Special
Functions and Computer Algebra. In Honour of Peter Paule
on his 60th Birthday. V. Pillwein and C. Schneider
(ed.). Texts & Monographs in Symbolic Computation,
Springer (410pp), 2020.
- Anti-Differentiation and the Calculation of Feynman Amplitudes. J. Blümlein and C. Schneider (ed.). Texts & Monographs in Symbolic Computation, Springer (545pp), 2021.
Evaluation of Feynman Integrals:
- Challenges for analytic calculations
of the massive three-loop form factors. Technical report no. 24-05 in RISC Report Series,
Research Institute for Symbolic Computation (RISC),
Johannes Kepler University Linz, Austria. August 2024. arXiv:2408.07046 [hep-ph]. [url] [pdf]
[pdf]
[covercore.tex]
[prepend_cover.log]
[bib]
- The three-loop single-mass heavy
flavor corrections to deep-inelastic scattering. Technical report no. 24-04 in RISC Report Series,
Research Institute for Symbolic Computation (RISC),
Johannes Kepler University Linz, Austria. July 2024. arXiv:2407.02006 [hep-ph]. [url] [pdf]
[covercore.tex]
[prepend_cover.log]
[pdf]
[bib]
- J. The first-order factorizable
contributions to the three-loop massive operator matrix
elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$. Nuclear Physics B 999(116427), pp. 1-42. 2024. ISSN 0550-3213. arXiv:2311.00644 [hep-ph]. [url] [bib]
- The non-first-order-factorizable
contributions to the three-loop single-mass operator
matrix elements $A_{Qg}^{(3)}$ and $Delta A_{Qg}^{(3)}$. Physics Letter B 854(138713), pp. 1-8. 2024. ISSN 0370-2693. arXiv:2403.00513 [[hep-ph]. [url] [bib]
- Recent 3-Loop Heavy Flavor Corrections
to Deep-Inelastic Scattering. In: Proc. of the 16th International
Symposium on Radiative Corrections: Applications of
Quantum Field Theory to Phenomenology , Giulio Falcioni (ed.), PoS RADCOR2023046, pp. 1-7. June 2023. ISSN 1824-8039. arXiv:2306.16550 [hep-ph]. [url] [bib]
- The Unpolarized and Polarized
Single-Mass Three-Loop Heavy Flavor Operator Matrix
Elements $A_{gg, Q}$ and $Delta A_{gg, Q}$. Journal of High Energy Physics 2022(12, Article 134), pp. 1-55. 2022. ISSN 1029-8479. arXiv:2211.05462 [hep-ph]. [url] [bib]
- The massless three-loop Wilson
coefficients for the deep-inelastic structure functions
$F_2, F_L, xF_3$ and $g_1$. Journal of High Energy Physics(Paper No. 156), pp. 1-83. 2022. ISSN 1029-8479. arXiv:2208.14325 [hep-ph]. [url] [bib]
- The 3-loop anomalous dimensions from
off-shell operator matrix elements. In: Proceedings of Loops and Legs in
Quantum Field Theory, PoS(LL2022) 48, P. Marquard, M. Steinhauser (ed.)416, pp. 1-12. July 2022. ISSN 1824-8039. arXiv:2207.07943 [hep-ph]. [url] [bib]
- The SAGEX Review on Scattering
Amplitudes.
J. Phys. A: Math. Theor. 55(44), pp. 1-12. 2022. arxiv.2203.13011 [hep-th], ISSN: 1751-8121. [url] [bib]
- The SAGEX Review on Scattering
Amplitudes, Chapter 4: Multi-loop Feynman Integrals. J. Phys. A: Math. Theor. 55(44), pp. 1-37. 2022. IOP Publishing Ltd, ISSN: 1751-8121. arXiv:2203.13015 [hep-th]. [url] [bib]
- The three-loop polarized singlet
anomalous dimensions from off-shell operator matrix
elements. Journal of High Energy Physics 2022(193), pp. 0-32. 2022. ISSN 1029-8479 . arXiv:2111.12401 [hep-ph]. [url] [bib]
- The Two-Loop Massless Off-Shell QCD
Operator Matrix Elements to Finite Terms. Nuclear Physics B 980, pp. 1-131. 2022. ISSN 0550-3213. arXiv:2202.03216 [hep-ph]. [url] [bib]
- New 2– and 3–loop heavy flavor
corrections to unpolarized and polarized deep-inelastic
scattering. SciPost Phys. Proc.(8), pp. 137.1-137.15. 2022. ISSN 2666-4003. DIS2021, arXiv:2107.09350 [hep-ph]. [url] [bib]
- The three-loop polarized singlet
anomalous dimensions from off-shell operator matrix
elements. Journal of High Energy Physics 2022(193), pp. 0-32. 2022. ISSN 1029-8479 . arXiv:2111.12401 [hep-ph]. [url] [bib]
- The three-loop unpolarized and
polarized non-singlet anomalous dimensions from off
shell operator matrix elements. Nucl. Phys. B 971, pp. 1-44. 2021. ISSN 0550-3213. arXiv:2107.06267 [hep-ph]. [url] [bib]
- The Logarithmic Contributions to the
Polarized $O(alpha_s^3)$ Asymptotic Massive Wilson
Coefficients and Operator Matrix Elements in Deeply
Inelastic Scattering. Physical Review D 104(3), pp. 1-73. 2021. ISSN 2470-0029. arXiv:2105.09572 [hep-ph]. [url] [bib]
- Three loop heavy quark form factors
and their asymptotic behavior. In: Proc.of 23rd DAE-BRNS High Energy
Physics Symposium 2018, Behera, P.K., Bhatnagar, V., Shukla,
P., Sinha, R. (ed.), Springer Proceedings in Physics 261, pp. 91-100. 2021. Springer, ISBN 978-981-33-4407-5. arXiv:1906.05829 [hep-ph],
https://doi.org/10.1007/978-981-33-4408-2_14. [url]
[bib]
-
The Polarized Transition
Matrix Element $A_{g, q}(N)$ of the Variable Flavor
Number Scheme at $O(alpha_s^3)$. Nuclear Physics B 964, pp. 115331-115356. 2021. ISSN 0550-3213. arXiv:2101.05733 [hep-ph]. [url] [bib]
- A. The Polarized Three-Loop Anomalous
Dimensions from a Massive Calculation. In: 14th International Symposium on
Radiative Corrections (RADCOR2019), D. Kosower, M. Cacciari (ed.), POS(RADCOR2019)047, arXiv:1911.06189 [hep-ph], pp. 1-10. 2020. ISSN 1824-8039. [url]
[bib]
- Three loop QCD corrections to heavy
quark form factors. In: Proc. ACAT 2019, , J. Phys.: Conf. Ser. 1525012018, pp. 1-10. 2020. ISSN 1742-6596. arXiv:1905.03728 [hep-ph],
doi:10.1088/1742-6596/1525/1/012018. [url] [bib]
- Heavy quark form factors at three
loops. In: 14th International Symposium on
Radiative Corrections (RADCOR2019), D. Kosower, M. Cacciari (ed.)POS(RADCOR2019)013, pp. 1-7. 2020. ISSN 1824-8039. [url] [bib]
- From Momentum Expansions to
Post-Minkowskian Hamiltonians by Computer Algebra
Algorithms. Physics Letters B 801(135157), pp. 1-8. 2020. ISSN 0370-2693. arXiv:1911.04411 [gr-qc]. [url] [bib]
- J. The three-loop polarized pure singlet
operator matrix element with two different masses. Nuclear Physics B 952(114916), pp. 1-18. 2020. ISSN 0550-3213. arXiv:1911.11630 [hep-ph]. [url] [bib]
-
Subleading logarithmic QED initial state corrections to $e^+e^−\to γ^âŽ/Z^{0âŽ}$ to $O(\alpha^6L^5)$. Nuclear Physics B 955, pp. 115045-115045. 2020. ISSN 0550-3213. [url] [bib]
- The three-loop single mass polarized
pure singlet operator matrix element. Nuclear Physics B 953(114945), pp. 1-25. 2020. ISSN 0550-3213. arXiv:1912.02536 [hep-ph]. [url] [bib]
-
Subleading logarithmic QED initial state corrections to $e^+e^−\to γ^âŽ/Z^{0âŽ}$ to $O(\alpha^6L^5)$. Nuclear Physics B 955, pp. 115045-115045. 2020. ISSN 0550-3213. [url] [bib]
- The Polarized Three-Loop Anomalous
Dimensions from On-Shell Massive Operator Matrix
Elements. Nuclear Physics B 948(114753), pp. 1-41. 2019. ISSN 0550-3213. arXiv:1908.03779 [hep-ph]. [url] [bib]
- The Heavy Fermion Contributions to the
Massive Three Loop Form Factors. Nuclear Physics B 949(114751), pp. 1-97. 2019. ISSN 0550-3213. arXiv:1908.00357 [hep-ph]. [url] [bib]
- Massive three loop form factors in the
planar limit. In: Proceedings of "Loops and Legs in
Quantum Field Theory - LL 2018, J. Blümlein, P. Marquard (ed.), PoS(LL2018)009 , pp. 1-10. 2018. ISSN 1824-8039. ISSN 1824-8039. [url]
[bib]
- Two-mass three-loop effects in
deep-inelastic scattering. In: Proceedings of "Loops and Legs in
Quantum Field Theory - LL 2018, J. Blümlein, P. Marquard (ed.), PoS(LL2018)051 , pp. 1-8. 2018. ISSN 1824-8039. arXiv:1807.07855 [hep-ph]. [url]
[bib]
- Heavy Quark Form Factors at Three
Loops in the Planar Limit. Physics Letters B 782, pp. 528-532. 2018. ISSN: 0370-2693. arXiv:1804.07313 [hep-ph]. [url] [bib]
- The Variable Flavor Number Scheme at
Next-to-Leading Order. Physics Letters B 782, pp. 362-366. 2018. ISSN: 0370-2693. arXiv:1
804.03129 [hep-ph]. [url] [bib]
- The Two-mass Contribution to the
Three-Loop Gluonic Operator Matrix Element $A_{gg,
Q}^{(3)}$. Nucl. Phys. B 932, pp. 129-240. 2018. ISSN 0550-3213. arXiv:1804.02226 [hep-ph]. [url] [bib]
- The Heavy Quark Form Factors at Two
Loops. Physical Review D 97(094022), pp. 1-44. 2018. ISSN 1550-2368. arXiv:1712.09889 [hep-ph]. [url] [bib]
- The two-mass contribution to the
three-loop pure singlet operator matrix element. Nucl. Phys. B(927), pp. 339-367. 2018. ISSN 0550-3213. arXiv:1711.06717 [hep-ph]. [url]
[bib]
- The Three-Loop Splitting Functions
$P_{qg}^{(2)}$ and $P_{gg}^{(2, \rm N_F)}$. Nucl. Phys. B. 922, pp. 1-40. 2017. ISSN 0550-3213.. arXiv:1705.01508 [hep-ph]. [url]
[bib]
- Three Loop Massive Operator Matrix
Elements and Asymptotic Wilson Coefficients with Two
Different Masses. Nucl. Phys. B. 921, pp. 585-688. 2017. ISSN 0550-3213. arXiv:1705.07030 [hep-ph]. [url]
[bib]
- Heavy Flavor Wilson Coefficients in
Deep-Inelastic Scattering: Recent Results. In: Proceedings of QCDEV2017, L. Gamberg, A. Prokudin, J.W. Qiu and
A. Radyushkin (ed.)PoS(QCDEV2017)031
, pp. 1-10. 2017. ISSN 1824-8039. arXiv:1711.07957 [hep-ph]. [url]
[bib]
- The massive 3-loop operator matrix
elements with two masses and the generalized variable
flavor number scheme. In: Proc. of the 13th International
Symposium on Radiative Corrections (Applications of
Quantum Field Theory to Phenomenology), A. Hoang, C. Schneider (ed.)PoS (RADCOR2017) 071, pp. 1-20. 2017. ISSN 1824-8039. arXiv:1712.00745 [hep-ph]. [url]
[bib]
- Heavy quark form factors at two loops
in perturbative QCD. ACTA PHYSICA POLONICA B 48(12), pp. 2155-2166. 2017. ISSN 0587-4254. Presented at the XLI International
Conference of Theoretical Physics “Matter to the
Deepest”, Podlesice, Poland, September 3–8, 2017,
arXiv:1711.04880 [hep-ph]. [url] [bib]
- The Three Loop Two-Mass Contribution
to the Gluon Vacuum Polarization. Cornell University. Technical report no. arXiv:1710.04500 [hep-ph], 2017. [url]
[bib]
- The Asymptotic 3-Loop Heavy Flavor
Corrections to the Charged Current Structure Functions
$F_L^{W^+-W^-}(x, Q^2)$ and $F_2^{W^+-W^-}(x, Q^2)$. Physical Review D 94(11), pp. 1-19. 2016. ISSN 1550-2368. arXiv:1609.06255 [hep-ph]. [url]
[bib]
- , Heavy flavour corrections to polarised
and unpolarised deep-inelastic scattering at 3-loop
order. In: Proceedings of the QCD Evolution
2016, PoS(QCDEV2016)052, pp. 1-16. 2016. National Institute for
Subatomic Physics (Nikhef) in Amsterdam, ISSN 1824-8039. arXiv:1611.01104 [hep-ph]. [url]
[bib]
- New Results on Massive 3-Loop Wilson
Coefficients in Deep-Inelastic Scattering. In: Proc. Loops and Legs in Quantum
Field Theory - LL 2016, J. Bluemlein and P. Marquard and T.
Riemann (ed.), Proc. of Sciences PoS (LL2016) 065, pp. 1-16. 2016. ISSN 1824-8039. arXiv:1609.03397 [hep-ph]. [url]
[bib]
- Calculating Three Loop Ladder and
V-Topologies for Massive Operator Matrix Elements by
Computer Algebra. Comput. Phys. Comm. 202, pp. 33-112. 2016. ISSN 0010-4655. arXiv:1509.08324 [hep-ph]. [url]
[bib]
- 3-Loop Corrections to the Heavy Flavor
Wilson Coefficients in Deep-Inelastic Scattering. In: Proceedings of EPS 2015, , pp. 1-13. 2016. ISSN 1824-8039. [url]
[bib]
- The O(\alpha_s^3) Heavy Flavor
Contributions to the Charged Current Structure
Function xF_3(x, Q^2) at Large Momentum Transfer. Physical Review D 92(114005), pp. 1-19. 2015. ISSN 1550-2368. arXiv:1508.01449
[hep-ph].
[url]
[bib]
- The 3-Loop Non-Singlet Heavy Flavor
Contributions to the Structure Function g_1(x, Q^2) at
Large Momentum Transfer. Nucl. Phys. B 897, pp. 612-644, 2015. ISSN 0550-3213.. arXiv:1504.08217 [hep-ph]. [url]
[bib]
-
Higher Order Heavy Quark
Corrections to Deep-Inelastic Scattering. In: Advances in Computational Particle
Physics,
J. Blümlein, K. Jansen, M. Krämer,
J.H. Kühn (ed.), Proceedings
of Final
Meeting of DFG SFB-TR-9, Nucl. Phys. B (Proc. Suppl.) , pp. 185-201. 2015. ISSN 0550-3213. arXiv:1411.5669 [hep-ph]. [url]
[bib]
- 3-loop heavy flavor Wilson
coefficients in deep-inelastic scattering. In: 17th International Conference in
Quantum Chromodynamics (QCD 14), Stephan Narison (ed.), Nucl. Phys. B (Proc. Suppl.) 258-259, pp. 41-44. 2015. ISSN 0550-3213. arXiv:1409.1804 [hep-ph]. [url] [bib]
- 3-loop Massive $O(T_F^2)$
Contributions to the DIS Operator Matrix Element
$A_{gg}$. In: 17th International Conference in
Quantum Chromodynamics (QCD 14), Stephan Narison (ed.), Proceedings
of QCD
Montpellier Conference, Nucl. Phys. B (Proc. Suppl.) 258-259, pp. 37-40. 2015. ISSN 0550-3213. arXiv:1409.1435 [hep-ph]. [url] [bib]
- The 3-Loop Pure Singlet Heavy Flavor
Contributions to the Structure Function $F_2(x, Q^2)$
and the Anomalous Dimension. Nuclear Physics B 890, pp. 48-151. 2015. ISSN 0550-3213. arXiv:1409.1135 [hep-ph]. [url] [bib]
- Recent progress on the calculation of
three-loop heavy flavor Wilson coefficients in
deep-inelastic scattering. In: Loops and Legs in Quantum Field
Theory - LL 2014, J. Bluemlein, P. Marquard, T. Riemann
(ed.), PoS(LL2014)041 , pp. 1-11. 2014. ISSN 1824-8039. arXiv:1407.3638 [hep-ph]. [url]
[bib]
- 3-Loop Heavy Flavor Corrections in
Deep-Inelastic Scattering with Two Heavy Quark Lines. In: Proceedings of Loops and Legs in
Quantum Field Theory - LL 2014, J. Bluemlein, P. Marquard, T. Riemann
(ed.), PoS(LL2014)015 , pp. 1-10. 2014. ISSN 1824-8039. arXiv:1407.2821 [hep-ph]. [url]
[bib]
- Non-planar Feynman integrals,
Mellin-Barnes representations, multiple sums. In: Loops and Legs in Quantum Field Theory
- LL 2014,
J. Bluemlein, P. Marquard, T. Riemann
(ed.), PoS(LL2014)52 , pp. 1-14. 2014. [url]
[bib]
- The 3-Loop Non-Singlet Heavy Flavor
Contributions and Anomalous Dimensions for thE Structure
Function \boldmath $F_2(x, Q^2)$ and Transversity. Nuclear Physics B 886, pp. 733-823. 2014. arXiv:1406.4654 [hep-ph]. [url]
[bib]
- The $O(\alpha_s^3 T_F^2)$
Contributions to the Gluonic Operator Matrix Element. Nuclear Physics B 885, pp. 280-317. 2014. ISSN: 0550-3213. arXiv:1405.4259 [hep-ph]. [url]
[bib]
- Calculating Massive 3-loop Graphs for
Operator Matrix Elements by the Method of
Hyperlogarithms. Nuclear Physics B 885, pp. 409-447. 2014. ISSN: 0550-3213. arXiv:1403.1137 [hep-ph]. [url]
[bib]
- The Transition Matrix Element
$A_{gq}(N)$ of the Variable Flavor Number Scheme at
$O(\alpha_s^3)$. Nuclear Physics B 882, pp. 263-288. 2014. ISSN: 0550-3213. arXiv:1402.0359 [hep-ph]. [url]
[bib]
-
New Results on the 3-Loop
Heavy Flavor Corrections in Deep-Inelastic Scattering. In: Proc. of RADCOR, , PoS(RADCOR 2013)058 , pp. 1-21. 2013. ISSN 1824-8039. arXiv:1312.0124 [hep-ph]. [url]
[bib]
- Recent Results on the 3-Loop Heavy
Flavor Wilson Coefficients in Deep-Inelastic Scattering. In: XXI International Workshop on
Deep-Inelastic Scattering and Related Subjects - DIS2013, PoS(DIS 2013)301, pp. 1-8. 2013. ISSN 1824-8039. arXiv:1307.7548 [hep-ph]. [url] [bib]
- The $O(α_s^3 n_f T_F^2 C_{A, F})$}
Contributions to the Gluonic Massive Operator Matrix
Elements. Nuclear Physics B(866), pp. 196-211. 2013. [url]
[pdf]
[bib]
- Precision Calculations, Algebraic
Summation and Integration - Towards the Mathematical
Structure of the Microcosm. In: Annual report 2012 of the particle and
astroparticle physics division at DESY, - (ed.), pp. 90-91. 2013. Deutsches Elektronen Synchrotron
(DESY). [url] [bib]
- New Results on the 3-Loop Heavy Flavor
Wilson Coefficients in Deep-Inelastic Scattering. Proceedings of the 36th
International Conference on High Energy Physics, PoS(ICHEP2012)270, pp. 1-9. 2012. [url]
[bib]
- Three-Loop Contributions to the
Gluonic Massive Operator Matrix Elements at General
Values of N. In: Proc. Loops and Legs in Quantum
Field Theory 2012, J. Bl[mlein, S. Moch, T. Riemann
(ed.), PoS(LL2012)033 , pp. 1-12. 2012. [url]
[bib]
- Massive 3-loop Ladder Diagrams for
Quarkonic Local Operator Matrix Elements. Nuclear Physics B. 864 (2012), pp. 52-84 [url]
[bib]
- New Heavy Flavor Contributions to the
DIS Structure Function $F_2(x, Q^2)$ at $O(\alpha_s^3)$. In: Proceedings of RADCOR 2011, , Proceedings
of 10th
International Symposium on Radiative Corrections
(Applications of Quantum Field Theory to Phenomenology)
PoS(RADCOR2011)31, pp. 1-8. 2011. [url] [bib]
- 3-Loop Heavy Flavor Corrections to DIS
with two Massive Fermion Lines. To appear in Proc. of 19th International Workshop
On Deep-Inelastic Scattering And Related Subjects (DIS
2011).
[url]
[bib]
- The O(\alpha_s^3) Massive Operator
Matrix Elements of O(n_f) for the Structure Function
F_2(x, Q^2) and Transversity. Nucl. Phys. B, 844,
pp. 26-54.
2011. [url]
[bib]
- Heavy Flavor DIS Wilson coefficients
in the asymptotic regime. Nucl. Phys. B (Proc. Suppl.) 205-206 (2010), pp 242-249. arXiv::1007.0375 [hep-ph]. [url]
[bib]
- Modern Summation Methods and the
Computation of 2- and 3-loop Feynman Diagrams . Nucl. Phys. B (Proc. Suppl.), 205-206 (2010), pp 110-115. arXiv::1006.4797
[math-ph].
[url]
[bib]
- On Recurrences for Ising Integrals. Adv. in Appl. Math. 45(3), pp. 334-345. 2010. [pdf]
[bib]
- Determining the closed forms of the
{$O(a_s^3)$} anomalous dimensions and Wilson
coefficients from Mellin moments by means of computer
algebra. Comput. Phys. Comm. 180, pp. 2143-2165. 2009. [pdf]
[bib]
- Two-Loop Massive Operator Matrix Elements for Unpolarized Heavy Flavor Production to $O(epsilon)$. Nucl.Phys. B 803(1-2), pp. 1-41. November 2008. [url] [pdf] [bib]
- [ps]
[pdf]
[bib]
- Feynman integrals and difference
equations. In: Proc. ACAT 2007, PoS(ACAT)083, pp. 1-11. 2007. [url] [pdf]
[bib]
- Difference equations in massive higher
order calculations. In: Proc. ACAT 2007, PoS(ACAT)082, pp. 1-15. 2007. [url] [pdf]
[bib]
Special functions:
- Computing
Mellin representations and asymptotics of nested
binomial sums in a symbolic way: the RICA package.ACM Communications in Computer
Algebra57(2), pp. 31-34.June2023.ISSN:1932-2240.arXiv:2308.06042 [hep-ph]. [url] [bib]
-
Hypergeometric Structures
in Feynman Integrals. Annals of Mathematics and Artificial
Intelligence 91(5), pp. 591-649. 2023. ISSN 1573-7470. arXiv:2111.15501 [math-ph]. [url] [bib]
- Computer
Algebra and Hypergeometric Structures for Feynman
Integrals. In: Proceedings of Loops and Legs in
Quantum Field Theory, PoS(LL2022) 041, P. Marquard, M. Steinhauser (ed.)416, pp. 1-11.2022.ISSN 1824-8039. arXiv:2207.08524 [math-ph]. [url] [bib]
- . Iterated
integrals over letters induced by quadratic forms.Physical Review D 103(9), pp. 096025-096035.2021.ISSN 2470-0029.arXiv:2103.08330 [hep-th]. [url] [bib]
- Proving Two Conjectural Series for
$\zeta(7)$ and Discovering More Series for $\zeta(7)$. In: Mathematical Aspects of Computer
and Information Science, D. Slamanig, E. Tsigaridas, Z.
Zafeirakopoulos (ed.), pp. 42-47. 2020. Springer International Publishing, 978-3-030-43120-4. [url] [bib]
- . Discovering and Proving Infinite
Pochhammer Sum Identities. Experimental Mathematics, pp. 1-15. 2019. Taylor & Francis, 10.1080/10586458.2019.1627254. [url] [bib]
- . Proving Two Conjectural Series for
$\zeta(7)$ and Discovering More Series for $\zeta(7)$. In: Mathematical Aspects of Computer
and Information Science, D. Slamanig, E. Tsigaridas, Z.
Zafeirakopoulos (ed.), pp. 42-47. 2020. Springer International Publishing, 978-3-030-43120-4. [url] [bib]
- . Numerical Implementation of Harmonic
Polylogarithms to Weight w = 8. To appear in Comput. Phys. Comm., pp. 1-19. 2019. ISSN 0010-4655. arXiv:1809.07084 [hep-ph]. [url] [bib]
-
J. Blümlein and P. Paule and C.
Schneider (ed.) Elliptic Integrals, Elliptic Functions
and Modular Forms in Quantum Field Theory. Texts & Monographs in Symbolic
Computation,
2019. Springer, ISBN 978-3-030-04480-0. [url] [bib]
- Iterated
Elliptic and Hypergeometric Integrals for Feynman
Diagrams.J. Math. Phys.59(062305), pp. 1-55.2018.ISSN 0022-2488.arXiv:1706.01299 [hep-th]. [url]
[bib]
- An Improved Method to Compute the
Inverse Mellin Transform of Holonomic Sequences. In: Proceedings of "Loops and Legs in
Quantum Field Theory - LL 2018, J. Blümlein and P. Marquard (ed.), PoS(LL2018), pp. 1-10.2018.ISSN 1824-8039. [url]
[bib]
- Algebraic independence of sequences
generated by (cyclotomic) harmonic sums.Annals of Combinatorics22(2), pp. 213-244.2018.ISSN: 0218-0006.arXiv:1510.03692 [cs.SC], doi
10.1007/s00026-018-0381-5. [url] [bib]
- Iterative and Iterative-Noniterative
Integral Solutions in 3-Loop Massive QCD Calculations. In: Proc. of the 13th International
Symposium on Radiative Corrections (Applications of
Quantum Field Theory to Phenomenology), A. Hoang, C. Schneider (ed.)PoS (RADCOR2017) 069, pp. 1-13.2017.ISSN 1824-8039.arXiv:1711.09742 [hep-ph]. [url]
[bib]
- Special functions, transcendentals and
their numerics. In: Proc. of the 13th International
Symposium on Radiative Corrections (Applications of
Quantum Field Theory to Phenomenology), A. Hoang, C. Schneider (ed.)PoS (RADCOR2017) 010, pp. 1-7.2017.ISSN 1824-8039. arXiv:1712.08541 [hep-th]. [url]
[bib]
- Computing the Inverse Mellin Transform
of Holonomic Sequences using Kovacic's Algorithm. In: Proc. of the 13th International
Symposium on Radiative Corrections (Applications of
Quantum Field Theory to Phenomenology), A. Hoang and C. Schneider (ed.)PoS (RADCOR2017) 069, pp. 1-8.2017.ISSN 1824-8039.arXiv:1801.01039 [cs.SC]. [url]
[bib]
- Discovering and Proving Infinite
Binomial Sums Identities.Experimental Mathematics26(1), pp. 62-71.2017.ISSN 1058-6458.10.1080/10586458.2015.1116028. [url]
[bib]
- Nested
(inverse) binomial sums and new iterated integrals for
massive Feynman diagrams. In: Loops and Legs in Quantum Field
Theory - LL 2014, J. Bluemlein, P. Marquard, T. Riemann
(ed.), PoS(LL2014)020, pp. 1-13.2014.arXiv:1407.4721 [hep-th]. [url]
[bib]
- The package HarmonicSums: Computer Algebra
and Analytic aspects of Nested Sums. In: Loops and Legs in Quantum Field Theory
- LL 2014,
J. Bluemlein, P. Marquard, T.
Riemann (ed.),
pp. 1-10.2014.ISSN 1824-8039. [bib]
- Iterated Binomial Sums and their
Associated Iterated Integrals.J. Math. Phys.55(112301), pp. 1-57.2014.ISSN 0022-2488.arXiv:1407.1822 [hep-th]. [url] [bib]
- Generalized
Harmonic, Cyclotomic, and Binomial Sums, their
Polylogarithms and Special Numbers. In: Proc. ACAT 2013, , J. Phys.: Conf. Ser523012060, pp. 1-10.2014. ISSN 1742-6596. arXiv:1310.5645 [math-ph]. [url] [bib]
- Computer-Assisted Proofs of Some
Identities for Bessel Functions of Fractional Order. In: Computer Algebra in Quantum Field
Theory: Integration, Summation and Special Functions, C. Schneider, J. Bluemlein (ed.), Texts and Monographs in Symbolic
Computation,
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- Analytic and Algorithmic Aspects of
Generalized Harmonic Sums and Polylogarithms.J. Math. Phys. 54, 082301 (2013);54(082301), pp. 1-74.2013.arXiv:1302.0378
[math-ph].
[url]
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- . Harmonic Sums, Polylogarithms, Special
Numbers, and their Generalizations. In: Computer Algebra in Quantum Field
Theory: Integration, Summation and Special Functions, J. Bluemlein, C. Schneider (ed.), Texts and Monographs in Symbolic
Computation,
pp. 1-31.2013.Springer. [url] [bib]
- Computer Algebra Algorithms for
Special Functions in Particle Physics. J. Kepler University Linz. PhD Thesis.April2012. [pdf]
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- Harmonic Sums
and Polylogarithms Generated by Cyclotomic Polynomials.J. Math. Phys.52(10), pp. 1-52.2011. [arXiv:1007.0375 [hep-ph]]. [url] [pdf]
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- Parameterized Telescoping Proves Algebraic
Independence of Sums.Ann. Comb.14(4), pp. 533-552.2010. [pdf]
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- Generalized Reciprocity Laws for Sums
of Harmonic Numbers.INTEGERS. Electronic Journal of
Combinatorial Number Theory8(A17), pp. 1-20.2008. [url] [pdf]
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- A Computer Algebra Toolbox for
Harmonic Sums Related to Particle Physics. Johannes Kepler University. Diploma Thesis.February2009. [pdf]
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- Hypergeometric
Structures in Feynman Integrals.Annals of Mathematics and Artificial
Intelligence 91(5), pp. 591-649.2023.ISSN 1573-7470.arXiv:2111.15501 [math-ph]. [url] [bib]
Computer algebra - Symbolic summation and integration:
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- Representation of hypergeometric
products of higher nesting depths in difference rings. J. Symb. Comput. 120, pp. 1-50. 2024. ISSN: 0747-7171. arXiv:2011.08775 [cs.SC]. [url] [bib]
- Refined telescoping algorithms in
$RPiSigma$-extensions to reduce the degrees of the
denominators. In: ISSAC '23: Proceedings of the 2023
International Symposium on Symbolic and Algebraic
Computation, Gabriela Jeronimo (ed.), pp. 498-507. July 2023. ACM, ISBN 9798400700392. arXiv:2302.03563 [cs.SC]. [url] [bib]
- Solving linear difference equations
with coefficients in rings with idempotent
representations. In: Proceedings of the 2021
International Symposium on Symbolic and Algebraic
Computation (Proc. ISSAC 21), Marc Mezzarobba (ed.), pp. 27-34. 2021. ISBN 978-1-4503-8382-0/21/06. arXiv:2102.03307 [cs.SC]. [url] [bib]
- Term Algebras, Canonical
Representations and Difference Ring Theory for Symbolic
Summation. In: Anti-Differentiation and the
Calculation of Feynman Amplitudes, J. Blümlein and C. Schneider (ed.), Texts and Monographs in Symbolic
Computuation , pp. 423-485. 2021. Springer, ISBN 978-3-030-80218-9. arXiv:2102.01471 [cs.SC], RISC-Linz
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On Rational and
Hypergeometric Solutions of Linear Ordinary Difference
Equations in ΠΣ∗-field extensions. J. Symb. Comput. 107, pp. 23-66. 2021. ISSN 0747-7171. arXiv:2005.04944 [cs.SC]. [url] [bib]
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Minimal representations and algebraic relations for single nested products. Programming and Computer Software 46(2), pp. 133-161. 2020. arXiv:1911.04837 [cs.SC]. [url] [bib]
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A refined machinery to
calculate large moments from coupled systems of linear
differential equations. In: 4th International Symposium on
Radiative Corrections (RADCOR2019), D. Kosower, M. Cacciari (ed.), POS(RADCOR2019)013, pp. 1-13. 2020. ISSN 1824-8039. arXiv:1912.04390 [cs.SC]. [url]
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Towards a symbolic summation theory for unspecified sequences. In: Elliptic Integrals, Elliptic Functions and Modular Forms in Quantum Field Theory, J. Blümlein, P. Paule, C. Schneider (ed.), Texts and Monographs in Symbolic Computation , pp. 351-390. 2019. Springer, ISBN 978-3-030-04479-4. arXiv:1809.06578 [cs.SC]. [url] [bib]
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Automated Solution of First Order Factorizable Systems of Differential Equations in One Variable. Nucl. Phys. B 939, pp. 253-291. 2019. ISSN 0550-3213. arXiv:1810.12261 [hep-ph]. [url] [bib]
- Computer algebra tools for Feynman
integrals and related multi-sums. In: Proceedings of Loops and Legs in
Quantum Field Theory - LL 2018, J. Blümlein, P. Marquard (ed.), PoS(LL2018)052 , pp. 1-17. 2018. ISSN 1824-8039. arXiv:1809.06168 [cs.SC]. [url]
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- Denominator Bounds for Systems of
Recurrence Equations using ΠΣ-Extensions. In: Advances in Computer Algebra.
WWCA 2016., C. Schneider, E. Zima (ed.), Springer Proceedings in Mathematics
& Statistics 226, pp. 149-173. 2018. Springer, ISSN 2194-1009. arXiv:1705.00280 [cs.SC]. [url]
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- Analytic Computing Methods for
Precision Calculations in Quantum Field Theory. INTERNATIONAL JOURNAL OF MODERN
PHYSICS A (IJMPA) 33(1830015), pp. 1-35. 2018. ISSN: 1793-656X. [url] [bib]
- Refined Holonomic Summation Algorithms
in Particle Physics. In: Advances in Computer Algebra.
WWCA 2016., E. Zima, C. Schneider (ed.), Springer Proceedings in Mathematics
& Statistics 226, pp. 51-91. 2018. Springer, ISSN 2194-1009. arXiv:1706.03677 [cs.SC]. [url]
[bib]
- Representing (q-)hypergeometric
products and mixed versions in difference rings. In: Advances in Computer Algebra.
WWCA 2016., C. Schneider, E. Zima (ed.), Springer Proceedings in Mathematics
& Statistics 226, pp. 175-213. 2018. Springer, ISSN 2194-1009. arXiv:1705.01368 [cs.SC]. [url]
[bib]
- Denominator Bounds for Systems of
Recurrence Equations using ΠΣ-Extensions. In: Advances in Computer Algebra.
WWCA 2016., C. Schneider, E. Zima (ed.), Springer Proceedings in Mathematics
& Statistics 226, pp. 149-173. 2018. Springer, ISSN 2194-1009. arXiv:1705.00280 [cs.SC]. [url]
[bib]
- Representation of hypergeometric
products in difference rings. ACM Communications in Computer
Algebra 50(4), pp. 161-163. 2016. ISSN 1932-2240 . Extended abstract of the poster
presentation at ISSAC 2016. [pdf]
[bib]
- Denominator Bounds for Higher Order
Systems of Linear Recurrence Equations. ACM Communications in Computer
Algebra 50(4), pp. 185-187. 2016. ISSN 1932-2240. Extended abstract of the poster
presentation at ISSAC 2016. [pdf]
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- Algorithms to solve coupled systems of
differential equations in terms of power series. In: Proc. Loops and Legs in Quantum
Field Theory - LL 2016, J. Bluemlein, P. Marquard, T. Riemann
(ed.) (ed.)PoS(LL2016)005, pp. 1-15. 2016. ISSN 1824-8039. arXiv:1608.05376 [cs.SC]. [url] [bib]
- Symbolic Summation in Difference Rings
and Applications. In: Proc. ISSAC 2016, M. Rosenkranz (ed.), pp. 9-12. 2016. ISBN 978-1-4503-4380-0/16/07. [pdf]
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- A Difference Ring Theory for Symbolic
Summation. J. Symb. Comput. 72, pp. 82-127. 2016. arXiv:1408.2776 [cs.SC]. [url] [bib]
- Fast Algorithms for Refined
Parameterized Telescoping in Difference Fields. In: Computer Algebra and Polynomials,
Applications of Algebra and Number Theory, Jaime Gutierrez, Josef Schicho,
Martin Weimann (ed.), Lecture Notes in Computer Science
(LNCS) , pp. 157-191. 2015. Springer, ISSN: 0302-9743 . arXiv:1307.7887 [cs.SC]. [url]
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- A toolbox to solve coupled systems of
differential and difference equations. In: Proc. of the 13th International
Symposium on Radiative Corrections (Applications of
Quantum Field Theory to Phenomenology), Nigel Glover, Daniel Maitre, Ben
Pecjak (ed.)PoS(RADCOR2015)060, pp. 1-13. 2015. ISSN 1824-8039. arXiv:1601.01856 [cs.SC]. [url]
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- A streamlined difference ring theory:
Indefinite nested sums, the alternating sign and the
parameterized telescoping problem. In: Symbolic and Numeric Algorithms
for Scientific Computing (SYNASC), 2014 15th
International Symposium, Franz Winkler, Viorel Negru, Tetsuo
Ida, Tudor Jebelean, Dana Petcu, Stephen Watt, Daniela
Zaharie (ed.), pp. 26-33. 2014. IEEE Computer Society, ISBN-13:978-1-4799-8448-0. arXiv:1412.2782v1 [cs.SC]. [url]
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Recent Symbolic Summation
Methods to Solve Coupled Systems of Differential and
Difference Equations. In: Loops and Legs in Quantum Field
Theory - LL 2014, J. Bluemlein, P. Marquard, T. Riemann
(ed.), PoS(LL2014)017, pp. 1-13. 2014. ISSN 1824-8039. [url]
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-
Modern Summation Methods
for Loop Integrals in Quantum Field Theory: The Packages
Sigma, EvaluateMultiSums and SumProduction. In: Proc. ACAT 2013, , J. Phys.: Conf. Ser. 523012037, pp. 1-17. 2014. ISSN 1742-6596. arXiv:1310.0160 [cs.SC]. [url] [bib]
- Symbolic Summation in Difference
Fields and Its Application in Particle Physics. Computer Algebra Rundbrief 53, pp. 8-12. 2013. ISSN 0933-5994. [url] [bib]
- C.
Schneider, J. Bluemlein
(ed.) Computer Algebra in Quantum Field Theory:
Integration, Summation and Special Functions. Texts and Monographs in Symbolic
Computation, 2013. Springer Wien, [bib]
- Advanced Computer Algebra Algorithms
for the Expansion of Feynman Integrals. In: Loops and Legs in Quantum Field
Theory 2012, PoS(2012) , pp. 1-14. 2012. [url]
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- A Symbolic Summation Approach to Feynman
Integral Calculus. J. Symbolic Comput. 47, pp 1267-1289, 2012. [pdf]
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- A Refined Denominator Bounding Algorithm
for Multivariate Linear Difference Equations. In: Proc. of ISSAC 2011, Anton Leykin (ed.), pp. 201-208. 2011. [pdf]
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- Evaluation of Multi-Sums for Large
Scale Problems. In: Proceedings of RADCOR 2011, , Proceedings
of 10th
International Symposium on Radiative Corrections
(Applications of Quantum Field Theory to Phenomenology)PoS(RADCOR2011)32, pp. 1-9. 2012. [url] [bib]
- Algebraic extensions for summation in
finite terms. RISC, Johannes Kepler University,
Linz. PhD
Thesis. February 2011. [pdf]
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- . Nullspace computation over rational
function fields for symbolic summation. Poster
presentation at ISSAC
2010. Also
appeared in ACM Communications in Computer Algebra, Vol.
44, No. 3, September 2010. [pdf]
[bib]
- Partial Denominator Bounds for
Partial Linear Difference Equations. In: Proceedings of ISSAC'10, Stephen Watt (ed.), pp. 211-218.2010. [pdf]
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- Structural Theorems for Symbolic Summation. Appl. Algebra Engrg. Comm. Comput. 21(1), pp. 1-32. 2010. [pdf]
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- A symbolic summation approach to find
optimal nested sum representations. In: Motives, Quantum Field Theory, and
Pseudodifferential Operators, A. Carey, D. Ellwood, S. Paycha, S.
Rosenberg (ed.), Clay Mathematics Proceedings 12, pp. 285-308. 2010. Amer. Math. Soc. [pdf]
[bib]
- . Algorithms for Special Functions: Computer
Algebra and Analytical Aspects. RISC, Johannes Kepler University
Linz. PhD
Thesis. June 2010. RISC
technical report 10-19. [pdf]
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- An Algorithmic Approach to the Mellin
Transform Method. In: Gems in Experimental Mathematics, T. Amdeberhan, L. A. Medina, V. H. Moll
(ed.), Contemporary Mathematics 517, pp. 207-218. 2010. AMS, ISBN 978-0-8218-4869-2. [pdf]
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- A symbolic summation approach to Feynman
integrals. Poster presentation at ISSAC 2010. Also
appeared in ACM SIGSAM Bulletin 44(3/4), pp. 95-96. 2010. [pdf]
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- Algorithms in Symbolic Computation. In: Hagenberg Research, Bruno Buchberger et al. (ed.), Chapter 1, pp. 5-62. 2009. Springer, 978-3-642-02126-8. [bib]
- A Refined Difference Field Theory for
Symbolic Summation. J. Symbolic Comput. 43(9), pp. 611-644. 2008. [pdf]
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- Simplifying
Sums in PiSigma-Extensions. J. Algebra Appl. 6(3), pp. 415-441. 2007.
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- Symbolic Summation with Radical
Expressions. In: Proc. ISSAC'07, C. W. Brown (ed.), pp. 219-226. 2007. ACM Press
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- Parameterized telescoping proves algebraic
independence of sums. 2007. Poster
presentation at FPSAC
2007.
[url]
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- Indefinite Summation with Unspecified
Summands. Discrete Math., 306(17), pp. 2073-2083. 2006. Preliminary version online. [pdf]
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- Application of Unspecified Sequences
in Symbolic Summation. In: Proc. ISSAC'06, Jean-Guillaume Dumas (ed.), pp. 177-183. 2006. ACM Press, [ps]
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- Product Representations in
PiSigma-Fields. Annals of Combinatorics, 9(1), pp. 75-99. 2005. Preliminary version online. [pdf]
[ps]
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- A new Sigma approach to
multi-summation. Advances in Applied Math., Special
Issue Dedicated to Dr. David P. Robbins. Edited by D.
Bressoud, 34(4), pp. 740-767. 2005. Preliminary version online. [ps]
[pdf]
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- Degree Bounds To Find Polynomial
Solutions of Parameterized Linear Difference Equations
in PiSigma-Fields. Appl. Algebra Engrg. Comm. Comput., 16(1), pp. 1-32. 2005. Preliminary version online. [pdf]
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- Solving Parameterized Linear
Difference Equations in Terms of Indefinite Nested Sums
and Products.J. Differ. Equations Appl., 11(9), pp. 799-821. 2005. Preliminary version online. [pdf]
[ps]
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- Finding Telescopers with Minimal Depth
for Indefinite Nested Sum and Product Expressions. In: Proc. ISSAC'05, M. Kauers (ed.), pp. 285-292. 2005. ACM Press. [pdf]
[ps]
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- Symbolic Summation with Single-Nested
Sum Extensions. In: Proc. ISSAC'04, J. Gutierrez (ed.), pp. 282-289. 2004. ACM Press. [pdf]
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- C. Schneider. A Collection of
Denominator Bounds to Solve Parameterized Linear
Difference Equations in PiSigma-Extensions. An. Univ. Timisoara Ser.
Mat.-Inform., 42(2), pp. 163-179. 2004 .Extended version of Proc. SYNASC'04;
preliminary version online. [pdf]
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- Symbolic Summation in Difference
Fields. RISC, J. Kepler University Linz. PhD Thesis
(advisor P. Paule). May
2001. (published as Technical report no.
01-17 in RISC Report Series). [pdf][ps]
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- An Implementation of Karr's Summation
Algorithm in Mathematica. Sem. Lothar. Combin. S43b, pp. 1-10. 2000. [url] [pdf]
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Related publications (combinatorics, number theory, ...):
-
Error bounds for the asymptotic expansion of the partition function. Rocky Mt J Math to appear, pp. ?-?. 2023. ISSN: 357596. arXiv:2209.07887 [math.NT]. [url] [bib]
-
A case study for ζ(4). In: Proceedings of the conference 'Transient Transcendence in Transylvania', Alin Bostan and Kilian Raschel (ed.), Proceedings in Mathematics & Statistics, 2021. Springer, arXiv:2004.08158 [math.NT]. [url] [bib]
-
The Absent-Minded Passengers Problem: A Motivating Challenge Solved by Computer Algebra. Mathematics in Computer Science 15(4), pp. 577-588. 2021. arXiv:2003.01921 [math.CO]. [url] [bib]
-
Evaluation of binomial double sums involving absolute values. In: Algorithmic Combinatorics: Enumerative Combinatorics, Special Functions and Computer Algebra, in Honour of Peter Paule on his 60th Birthday, V. Pillwein, C. Schneider (ed.), Texts and Monographs in Symbolic Computuation , pp. 249-295. 2020. Springer, ISBN 978-3-030-44558-4. arXiv:1607.05314 [math.CO]. [url] [bib]
- Asymptotic and exact results on the
complexity of the Novelli-Pak-Stoyanovskii algorithm. Electron. J. Combin. 24(2), pp. 1-33. 2017. #P2.28, arXiv:1606.07597. [url] [bib]
- Unfair permutations. Europ. J. Comb. 32, pp. 1282-1298. 2011. [pdf]
[bib]
- Gaussian Hypergeometric series and
supercongruences. Math. Comp. 78(275-292), pp. 1-19. 2009. [url] [pdf]
[bib]
- Computer-Assisted Proofs of Special
Function Identities Related to Poisson Integrals. The Ramanujan Journal 20(1), pp. 55-67. 2009. Springer, [pdf]
[bib]
- Automated Proofs for Some Stirling
Number Identities. The Electronic Journal of
Combinatorics 15(1), pp. 1-7. 2008. [pdf]
[ps]
[bib]
- Computing the complexity for schelling
segregation models. Communications in Nonlinear Science
and Numerical Simulations 13, pp. 2236-2245. 2008. [pdf]
[bib]
- Truncating Binomial Series with
Symbolic Summation. INTEGERS. Electronic Journal of
Combinatorial Number Theory(7), #A22., pp. 1-9. 2007. [url] [pdf]
[bib]
- When is 0.999... equal to 1?. Amer. Math. Monthly, 114(4), pp. 344-350. 2007. Preliminary version online. [ps]
[pdf]
[bib]
- Apery's Double Sum is Plain Sailing
Indeed. Electron. J. Combin., 14, #N5, pp. 1-3. 2007. [url]
[pdf]
[ps]
[bib]
- Symbolic Summation Assists
Combinatorics. Sem. Lothar. Combin., 56, Article B56b, pp. 1-36. 2007. [url] [pdf]
[ps]
[bib]
- Hypergeometric Summation Algorithms
for High Order Finite Elements. Computing, 78(3), pp. 235-249. 2006. Preliminary version available. [pdf]
[ps]
[bib]
- Pad'e Approximations to the
Logarithm II: Identities, Recurrences, and Symbolic
Computation. Ramanujan Journal, 11(2), pp. 139-158. 2006. Preliminary version online. [url] [pdf]
[ps]
[bib]
- Pad'e Approximations to the
Logarithm III: Alternative Methods and Additional
Results. Ramanujan Journal, 12(3), pp. 299-314. 2006. Preliminary version online. [pdf]
[ps]
[ps]
[bib]
- Some Notes On ``When is 0.999... equal to 1?''. In: Mathematics, Algorithms, Proofs, T. Coquand et al. (ed.), Dagstuhl Seminar Proceedings 05021, pp. 1-3. 2006. Internationales Begegnungs- und Forschungszentrum (IBFI), Schloss Dagstuhl, Germany. [url] [pdf] [bib]
- Plane Partitions VI: Stembridge's
TSPP Theorem.
Advances in Applied
Math., Special Issue Dedicated to Dr. David P. Robbins.
Edited by D. Bressoud,
34(4), pp. 709-739. 2005. Preliminary version online. [ps]
[pdf]
[bib]
- The Summation Package Sigma:
Underlying Principles and a Rhombus Tiling Application. Discrete Math. Theor. Comput. Sci.,
6(2), pp. 365-386. 2004. [url][pdf]
[ps]
[bib]
- Computer proofs of a new family of
harmonic number identities. Adv. in Appl. Math., 31(2), pp. 359-378. 2003. Preliminary version online. [pdf][ps]
[bib]
- Computer proofs of a new family of
harmonic number identities. Adv. in Appl. Math., 31(2), pp. 359-378. 2003. Preliminary version online. [pdf][ps]
[bib]
- C. Schneider. How one can play with sums. In: Proceedings of the 8th Rhine Workshop on Computer Algebra, H. Kredel, W. Seiler (ed.), pp. 73-83. 2002. Mannheim, Germany. Preliminary version online. [pdf] [ps] [bib]
Theses (in this group or related to the DESY cooperation):
-
Difference Ring Algorithms for Nested Products. RISC, Johannes Kepler University. PhD Thesis. November 2019. [pdf] - K. Schönwald (DESY)
Massive two- and three-loop calculations in QED and QCD ((Dortmund U. & DESY, Zeuthen). 2019. 294 pp. DOI:10.17877/DE290R-20310
- A. Behring (DESY)
Three-loop QCD corrections from massive quarks to deep-inelastic structure functions and operator matrix elements
(Hasylab, DESY). 2016. 326 pp. DOI: 10.3204/PUBDB-2016-05723
- F.P. Wißbrock
(DESY)
O(α3s) contributions to the heavy flavor Wilson coefficients of the structure function F2(x,Q2) at Q2≫m2
(Dortmund U. & DESY, Zeuthen). 2015. 214 pp. DESY-THESIS-2015-040
- A. Hasselhuhn (DESY)
3-Loop Contributions to Heavy Flavor Wilson Coefficients of Neutral and Charged Current DIS
(Tech. U., Dortmund (main) & DESY, Zeuthen & Linz U.). 2013. 187 pp. DESY-THESIS-2013-050
- J. Ablinger (RISC)
Computer Algebra Algorithms for Special Functions in Particle Physics. Johannes Kepler University Linz. PhD-Thesis. April 2012. [pdf]
- B. Erocal
(RISC)
Algebraic extensions for summation in finite terms. RISC, Johannes Kepler Universitz Liny. PHD-Thesis. February 2011. [pdf] [bib]
- F. Stan (RISC)
Algorithms for Special Functions: Computer Algebra and Analytical Aspects. Johannes Kepler University Linz. PhD-Thesis. July 2010. [pdf]
- F. Wißbrock (DESY)
O(αs3 TF2 NF) Contributions to the Heavy Flavor Wilson Coefficients of the Structure Function F2(x,Q2) at Q2 >> m2. Free University Berlin. Diploma Thesis. June 2010. arxiv:1010.4251 [hep-ph]. [pdf]
- S. Klein (DESY)
Mellin Moments of Heavy Flavor Contributions to F2(x,Q2) at NNLO. Dortmund University. PhD-Thesis. September 2009. arxiv:0910.3101 [hep-ph]. [pdf]
- J. Ablinger (RISC)
A Computer Algebra Toolbox for Harmonic Sums Related to Particle Physics. Johannes Kepler University Linz. Diploma Thesis. February 2009. arXiv:1011.1176 [math-ph]. [pdf]