{"id":70,"date":"2018-09-25T09:39:02","date_gmt":"2018-09-25T09:39:02","guid":{"rendered":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/?page_id=70"},"modified":"2026-03-26T18:49:30","modified_gmt":"2026-03-26T18:49:30","slug":"publications","status":"publish","type":"page","link":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/home\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Scientific articles<\/h3>\n

(PI<\/strong> in bold, group members<\/u> underlined, * means equal (first or last author) contribution)<\/p>\n

154. L. Baldo<\/u>, P. Holmvall<\/u>, and A. M. Black-Schaffer<\/strong>
\nUnifying description of competing chiral and nematic superconducting states in twisted bilayer graphene<\/em>
\narXiv:2603.06550 (PDF<\/a>)<\/p>\n

153. S. Sekh, A. M. Black-Schaffer<\/strong>, and A. Ptok
\nKagome edge states under lattice termination, spin-orbit coupling, and magnetic order<\/em>
\narXiv:2602.12223 (PDF<\/a>)<\/p>\n

152. A. Theiler<\/u>, C. R. Ast, and A. M. Black-Schaffer<\/strong>
\nJosephson tunneling through a Yu-Shiba-Rusinov state: Interplay of \u03c0-shifts in Josephson current and local superconducting order parameter<\/em>
\narXiv:2602.08827 (PDF<\/a>)<\/p>\n

151. A. Kobia\u0142ka<\/u>, A. K. Ghosh<\/u>, R. Arouca, and A. M. Black-Schaffer<\/strong>
\nTopology and energy dependence of Majorana bound states in a photonic cavity<\/em>
\narXiv:2602.03553 (PDF<\/a>)<\/p>\n

150. F. Kayatz<\/u>, A. M. Black-Schaffer<\/strong>, and J. Cayao
\nSuperconducting properties of transition metal dichalcogenides in proximity to a conventional superconductor<\/i>
\narXiv:2601.21994 (PDF<\/a>)<\/p>\n

149. Q. Marsal<\/u>, H. Liu, E. J. Bergholtz, \u00a0and A. M. Black-Schaffer<\/strong>
\nProbing topological stability with nonlocal quantum geometric markers<\/i>
\narXiv:2511.09664 (PDF<\/a>)<\/p>\n

148. A. Mukherjee, B. Sanyal, A. M. Black-Schaffer<\/strong>*, and \u00a0A. Bhattacharya<\/u>*
\nElectric field controlled second-order anomalous Hall effect in altermagnets<\/em>
\narXiv:2510.14899 (2025) (PDF<\/a>)<\/p>\n

147. Q. Marsal<\/u>, P. Holmvall<\/u>,\u00a0and A. M. Black-Schaffer<\/strong>
\nQuantum metric and localization in a quasicrystal<\/i>
\narXiv:2506.15575 (PDF<\/a>)<\/p>\n

146.\u00a0A. Bouhon<\/u> and A. M. Black-Schaffer<\/strong>
\nBulk topology of line-nodal structures protected by space group symmetries in class AI<\/em>
\narXiv:1710.04871\u00a0(PDF<\/a>)<\/p>\n

145. J. van Poppelen<\/u> and A. M. Black-Schaffer<\/strong>
\nBuckling and flat bands in twisted bilayer graphene<\/em>
\nPhys. Rev. B 113, 115154 (2026) (PDF<\/a>)<\/p>\n

144.\u00a0A. K. Ghosh<\/u>, Q. Marsal<\/u>, and A. M. Black-Schaffer<\/strong>
\nLaser-induced topological phases in monolayer amorphous carbon<\/i>
\nPhys. Rev. B (Letters) 113, L121402 (2026) (PDF<\/a>)<\/p>\n

143. \u00a0A. Bhattacharya<\/u> and A. M. Black-Schaffer<\/strong>
\nDiamagnetic Meissner response of odd-frequency superconductivity pairing from quantum geometry<\/em>
\nPhys. Rev. B 113, 094501 (2026) (PDF<\/a>). Editors’ Suggestion.<\/p>\n

142. O. Dobrovolskiy, H. Suderow, F. Tafuri, A. M. Black-Schaffer<\/strong> et al.
\nRoadmap on nanoscale superconductivity for quantum technologies<\/i>
\nSuperconducting. Sci. Technol. 39, 023502 (2026) (PDF<\/a>)<\/p>\n

141. E. Wahlberg, R. Arpaia, D. Chakraborty, A. Kalaboukhov, D. Vignolles, C. Proust, A. M. Black-Schaffer<\/strong>, G. Seibold, T. Bauch, and F. Lombardi
\nBoosting superconductivity in ultrathin YBa2<\/sub>C3<\/sub>O7-\u03b4<\/sub> films via nanofaceted substrates<\/i>
\nNat. Commun. 17, 285 (2026) (PDF<\/a>)<\/p>\n

140. A. K. Ghosh<\/u>, R. Seoane Souto, V. Azimi-Mousolou, and A. M. Black-Schaffer<\/strong>*, and P. Holmvall<\/u>*
\nQuantum state transfer and maximal entanglement between distance qubits using a minimal quasicrystal pump<\/i>
\nPhys. Rev. B 112, 205427 (2025) (PDF<\/a>)<\/p>\n

139. A. Theiler<\/u>, C. R. Ast, and A. M. Black-Schaffer<\/strong>
\nTemperature dependent energy gap for Yu-Shiba-Rusinov states at the quantum phase transition<\/i>
\nPhys. Rev. B 112, 134505 (2025) (PDF<\/a>)<\/p>\n

138. D. Chakraborty and A. M. Black-Schaffer<\/strong>
\nConstraints on superconducting pairing in altermagnets<\/i>
\nPhys. Rev. B 112, 014516 (2025) (PDF<\/a>)<\/p>\n

137. D. Chakraborty and <\/span>A. M. Black-Schaffer<\/strong>
\nSuperconducting diode effect in altermagnets<\/i>
\nPhys. Rev. Lett. 135, 026001 (2025) (PDF<\/a>)<\/p>\n

136. C. Autieri, G. Cuono, D. Chakraborty, P. Gentile, and A. M. Black-Schaffer<\/strong>
\nConditions for orbital-selective altermagnetism in Sr2<\/sub>RuO4<\/sub>: Tight-binding model, similarities with cuprates, and implications for superconductivity<\/em>
\nPhys. Rev. B 112, 014412 (2025) (PDF<\/a>)<\/p>\n

135. P. Holmvall<\/u> and A. M. Black-Schaffer<\/strong>
\nDesigning edge currents using mesoscopic patterning in chiral d-wave superconductors<\/i>
\nPhys. Rev. B 111, 184505 (2025) (PDF<\/a>)<\/p>\n

134. K. M. Seja, N. Wall-Wennerdal, T. L\u00f6fwander, A. M. Black-Schaffer<\/strong>, M. Fogelstr\u00f6m, and P. Holmvall<\/u>
\nImpurity-temperature phase diagram with phase crystals and competing time-reversal symmetry breaking states in nodal d-wave superconductors<\/i>
\nPhys. Rev. B 111, 094513 (2025) (PDF<\/a>)<\/p>\n

133.\u00a0A. Bhattacharya<\/u> and A. M. Black-Schaffer<\/strong>
\nElectric field induced second-order anomalous Hall transport in unconventional Rashba system<\/i>
\nPhys. Rev. B (Letters) 111, L041202 (2025) (PDF<\/a>)<\/p>\n

132. A. K. Ghosh<\/u>, R. Arouca<\/u>, and A. M. Black-Schaffer<\/strong>
\nLocal and energy-resolved topological invariants for Floquet systems<\/i>
\nPhys. Rev. B 110, 245306 (2024) (PDF<\/a>)<\/p>\n

131. L. B. Braz<\/u>, T. Nag<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nCompeting magnetic states on the surface of multilayer ABC-stacked graphene<\/i>
\nPhys. Rev. B (Letters) 110, L241401 (2024) (PDF<\/a>). Editors’ Suggestion.<\/p>\n

130. A. Kobia\u0142ka<\/u>, O.A. Awoga,\u00a0M. Leijnse, T. Doma\u0144ski, P. Holmvall<\/u>, and A. M. Black-Schaffer<\/strong>
\nTopological superconductivity in Fibonacci quasicrystals<\/i>
\nPhys. Rev. B 110, 134508 (2024) (PDF<\/a>)<\/p>\n

129.\u00a0A. Sandberg<\/u>, O.A. Awoga,\u00a0A. M. Black-Schaffer<\/strong>, and P. Holmvall<\/u>
\nJosephson effect in a Fibonacci quasicrystal<\/i>
\nPhys. Rev. B 110, 104513 (2024) (PDF<\/a>)<\/p>\n

128. R. Arouca<\/u>, T. Nag<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nMixed higher-order topology and nodal and nodules flat band topological phases in a superconducting multiorbital model<\/i>
\nPhys. Rev. B 110, 064520 (2024) (PDF<\/a>)<\/p>\n

127. D. Chakraborty<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nZero-field finite-momentum and field-induced superconductivity in altermagnets<\/i>
\nPhys. Rev. B (Letters) 110, L060508 (2024) (PDF<\/a>). Editors’ Suggestion.<\/p>\n

126. A. K. Ghosh<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nMajorana zero modes in a dissipative Rashba nanowire<\/i>
\nSciPost Phys. 17, 036 (2024) (PDF<\/a>)<\/p>\n

125. Q. Marsal<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nEnhanced quantum metric due to vacancies in graphene<\/i>
\nPhs. Rev. Lett. 133, 026002 (2024) (PDF<\/a>)<\/p>\n

124. Xiong, C. He, Y. Liu, A. M. Black-Schaffer<\/strong>, and T. Nag<\/u>
\nDistinct quasiparticle interference patterns for surface impurity scattering in various Weyl semimetals<\/i>
\nPhys. Rev. B 109, 054201 (2024) (PDF<\/a>)<\/p>\n

123. P. Dutta<\/u>, J. Cayao,\u00a0A. M. Black-Schaffer<\/strong>, P. Burset
\nTopological phase transition revealed by electron waiting times<\/i>
\nPhys. Rev. Research (Letters) 6, L012062 (2024) (PDF<\/a>)<\/p>\n

122. P. Holmvall<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nEnhanced chiral currents and orbital magnetic moment in chiral d-wave superconductors from mesoscopic finite-size effects<\/i>
\nPhys. Rev. B 108, 174505 (2023) (PDF<\/a>)<\/p>\n

121. E. Pangburn, L. Haurie, A. Cr\u00e9pieux, O. A. Awoga, N. Sedlmayr,\u00a0A. M. Black-Schaffer<\/strong>, C. P\u00e9pin, and C. Bena
\nSuperconductivity in monolayer and few-layer graphene: III. Impurity-induced\u00a0subgap states and quasi-particle interference patterns<\/i>
\nPhys. Rev. B 108, 134516 (2023) (PDF<\/a>)<\/p>\n

120. A. Cr\u00e9pieux, E. Pangburn, L. Haurie, O. A. Awoga, A. M. Black-Schaffer<\/strong>, N. Sedlmayr, C. P\u00e9pin, and C. Bena
\nSuperconductivity in monolayer and few-layer graphene: II. Topological edge states and Chern number<\/i>
\nPhys. Rev. B 108, 134515 (2023) (PDF<\/a>)<\/p>\n

119. E. Pangburn, L. Haurie, A. Cr\u00e9pieux, O. A. Awoga, A. M. Black-Schaffer<\/strong>, C. P\u00e9pin, and C. Bena
\nSuperconductivity in monolayer and few-layer graphene: I. Review of possible pairing symmetries and basic electronic properties<\/i>
\nPhys. Rev. B 108, 134514 (2023) (PDF<\/a>)<\/p>\n

118.\u00a0A. Gregefalk<\/u>, A. M. Black-Schaffer<\/strong>, and T. Nag<\/u>
\nFano resonances for tilted linear and quadratic band touching dispersions in a harmonically driven potential well<\/i>
\nAnn. Phys. (Berlin) 2300295 (2023) (PDF<\/a>)<\/p>\n

117.\u00a0O. A. Awoga<\/u>*, T. L\u00f6thman<\/u>*, and A. M. Black-Schaffer<\/strong>
\nSuperconductivity and magnetism in the surface state of ABC-stacked multilayer graphene<\/i>
\nPhys. Rev. B 108, 144504 (2023) (PDF<\/a>)<\/p>\n

116.\u00a0L. Baldo<\/u>, T. L\u00f6thman<\/u>,\u00a0P. Holmvall<\/u>, and A. M. Black-Schaffer<\/strong>
\nDefect-induced band restructuring and length scales in twisted bilayer graphene<\/i>
\nPhys. Rev. B 108, 125141 (2023) (PDF<\/a>)<\/p>\n

115.\u00a0P. Holmvall,<\/u>\u00a0N. Wall-Wennerdal, and A. M. Black-Schaffer<\/strong>
\nRobust and\u00a0tunable coreless vortices and fractional vortices in chiral d-wave superconductors<\/i>
\nPhys. Rev. B 108, 0945511 (2023)\u00a0(PDF<\/a>)<\/p>\n

114.\u00a0P. Holmvall<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nCoreless vortices as direct signature of chiral d-wave superconductivity<\/i>
\nPhys. Rev. B (Letters) 108, L100506 (2023) (PDF<\/a>)<\/p>\n

113. R. Arouca<\/u>, J. Cayao, and\u00a0A. M. Black-Schaffer<\/strong>
\nTopological superconductivity enhanced by exceptional points<\/i>
\nPhys. Rev. B (Letters) 108, L060506 (2023) (PDF<\/a>)<\/p>\n

112. O. A. Awoga, M. Lejnse, A. M. Black-Schaffer<\/strong>, and J. Cayao
\nMitigating disorder-induced zero-energy states in weakly-coupled semiconductor-superconductor hybrid systems<\/em>
\nPhys. Rev. B 107, 184519 (2023) (PDF<\/a>)<\/p>\n

111.\u00a0J. Cayao and\u00a0A. M. Black-Schaffer<\/strong>
\nBulk Bogoliubov Fermi arcs in non-Hermitian superconducting systems<\/i>
\nPhys. Rev. B 107, 104515 (2023) (PDF<\/a>)<\/p>\n

110.\u00a0L. Baldo<\/u>, L. G. G. V. Dias Das Silva,\u00a0A. M. Black-Schaffer<\/strong>, and J. Cayao
\nZero-frequency supercurrent susceptibility signatures of trivial and topological zero-energy states in nanowire junctions<\/i>
\nSupercond. Sci. Technol. 36, 034003 (2023) (PDF<\/a>)<\/p>\n

109. M. Mashkoori, \u00a0F. Parhizgar<\/u>, S. Rachel, and\u00a0A. M. Black-Schaffer<\/strong>
\nDetrimental effects of disorder in two-dimensional time-reversal invariant topological superconductors<\/i>
\nPhys. Rev. B 107, 014512 (2023) (PDF<\/a>)<\/p>\n

108. D. Chakraborty<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nQuasiparticle interference as a direct experimental probe of bulk odd-frequency superconducting pairing<\/i>
\nPhys. Rev. Lett. 129, 247001 (2022)\u00a0(PDF<\/a>). Editors’ Suggestion. Featured in Physics Magazine (link<\/a>).<\/p>\n

107. I. Mahyaeh,<\/u>\u00a0T. K\u00f6hler, A. M. Black-Schaffer<\/strong>,* and A. Kantian*
\nSuperconducting\u00a0pairing from repulsive interactions of fermions in a flat-band system<\/i>
\nPhys. Rev. B 106, 125155 (2022) (PDF<\/a>)<\/p>\n

106.\u00a0Salvato, M. De Crescenzi, M. Scagliotti, P. Castrucci, S. Boninelli, G. M. Caruso, Y. Liu, A. Mikkelsen, R. Timm, S. Nahas<\/u>, A. Black-Schaffer<\/strong>, G. Kunakova, J. Andzane, D. Erts, T. Bauch, and F. Lombardi
\nNanometric moir\u00e9 stripes on the surface of Bi2<\/sub>Se3<\/sub> topological insulator<\/i>
\nACS Nano 16, 13860 (2022)\u00a0(PDF<\/a>)<\/p>\n

105. J. Cayao, P. Dutta, P. Burset, and\u00a0A. M. Black-Schaffer<\/strong>
\nPhase-tunable electron transport assisted by odd-frequency Cooper pairs in topological\u00a0Josephson junctions<\/i>
\nPhys. Rev. B (Letters) 106, L100502 (2022) (PDF<\/a>)<\/p>\n

104.\u00a0D. Chakraborty<\/u> and\u00a0A. M. Black-Schaffer<\/strong>
\nInterplay of finite-energy and finite-momentum superconducting pairing<\/i>
\nPhys. Rev. B 106, 024511 (2022) (PDF<\/a>)<\/p>\n

103.\u00a0S. Karan, H. Huang, C. Padurariu, B. Kubala, A. Theiler<\/u>, A. M. Black-Schaffer,<\/strong> G. Morr\u00e1<\/span>s, A. Levy Yeyati, J. C. Cuevas, J. Ankerhold, K. Kern, and C. R. Ast
\nSuperconducting quantum interference at the atomic scale<\/i>
\nNat. Phys. 18, 893 (2022) (PDF<\/a>)<\/p>\n

102. F. Mart\u00edn-Vega, E. Herrera, B. Wu, V. Barrena, F. Mompe\u00e1n, M. Garc\u00eda-Hern\u00e1ndez, P. C. Canfield,\u00a0A. M. Black-Schaffer<\/strong>, J. J. Baldov\u00ed, I. Guillam\u00f3n, and H. Suderow
\nSuperconducting density of states and band structure at the surface of the candidate topological superconductor\u00a0Au2<\/sub>Pb <\/i>
\nPhys. Rev. Research 4, 023241 (2022) (PDF<\/a>)<\/p>\n

101.\u00a0O. A. Awoga<\/u>, J. Cayao<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nRobust topological superconductivity in weakly coupled nanowire-superconductor hybrid structures<\/i>
\nPhys. Rev. B 105, 144509 (2022) \u00a0(PDF<\/a>). Editors’ Suggestion.<\/p>\n

100.\u00a0D. Chakraborty<\/u>, Tomas L\u00f6fwander, Mikael Fogelstr\u00f6m,\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nDisorder-robust phase crystal in high-temperature superconductors stabilized by strong correlations<\/i>
\nnpj Quantum Mater. 7, 44 (2022) \u00a0(PDF<\/a>)<\/p>\n

99. T. L\u00f6thman<\/u>, J. Schmidt<\/u>, F. Parhizgar<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nNematic superconductivity in magic-angle twisted bilayer\u00a0graphene from atomistic modeling<\/i>
\nCommun. Phys. 5, 92 (2022) (PDF<\/a>)<\/p>\n

98. A. Aydin, A. Sisman, J. Fransson,\u00a0A. M. Black-Schaffer<\/strong>, and P. Dutta<\/u>
\nThermodefect voltage in graphene\u00a0nano ribbon junctions<\/i>
\nJ. Phys.: Condens. Matter 34, 195304 (2022) (PDF<\/a>)<\/p>\n

97. J. Cayao<\/u>\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nExceptional odd-frequency\u00a0pairing in non-Hermitian superconducting systems<\/i>
\nPhys. Rev. B 105, 094502 (2022) (PDF<\/a>)<\/p>\n

96.\u00a0P. Dutta,<\/u>\u00a0F. Parhizgar,<\/u>\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nSuperconductivity in spin-3\/2 systems: symmetry classification, odd-frequency pairs, and Bogoliubov Fermi surfaces<\/i>
\nPhys. Rev. Research 3, 033255 (2021) (PDF<\/a>)<\/p>\n

95. T. L\u00f6thman<\/u>\u00a0, C. Triola, J. Cayao<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nEfficient numerical method for evaluating normal and anomalous\u00a0time-dependent equilibrium\u00a0Greens functions in inhomogeneous systems<\/i>
\nPhys. Rev. B 104, 125405 (2021) (PDF<\/a>)<\/p>\n

94. T. L\u00f6thman<\/u>\u00a0, C. Triola, J. Cayao<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nDisorder-robust p-wave pairing with odd frequency dependence in normal metal-conventional superconductor junctions<\/i>
\nPhys. Rev. B 104, 094503 (2021) (PDF<\/a>)<\/p>\n

93. \u00a0F. Parhizgar<\/u>\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nDia- and paramagnetic Meissner effect from odd-frequency\u00a0pairing in multi-orbital\u00a0superconductors<\/i>
\nPhys. Rev. B 104, 054507 (2021) (PDF<\/a>)<\/p>\n

92.\u00a0J. Cayao<\/u>\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nDistinguishing trivial and topological zero energy states in long nanowire junctions<\/i>
\nPhys. Rev. B (Letters) 104, L020501 (2021) (PDF<\/a>)<\/p>\n

91. J. Cayao<\/u>, C. Triola, and\u00a0A. M. Black-Schaffer<\/strong>
\nFloquet engineering bulk odd-frequency superconducting pairs<\/i>
\nPhys. Rev. B 103, 104505 (2021) (PDF<\/a>)<\/p>\n

90.\u00a0D. Chakraborty<\/u>\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nOdd-frequency pair density wave correlations in\u00a0underdoped cuprates<\/i>
\nNew J. Phys. 23, 033001 (2021) (PDF<\/a>)<\/p>\n

89. M. Shiranzaei, J. Fransson, \u00a0A. M. Black-Schaffer<\/strong>, and F. Parhizgar<\/u>
\nHighly tunable magnetic coupling in\u00a0ultrathin topological insulator films due to impurity resonances<\/i>
\nPhys. Rev. B 102, 174446 (2020) (PDF<\/a>)<\/p>\n

88. S. Nahas<\/u>, B. Sanyal,\u00a0and\u00a0A. M. Black-Schaffer<\/strong>
\nSpontaneous ferromagnetism and finite surface energy gap in the topological insulator Bi2<\/sub>Se3<\/sub> from surface BiSe<\/sub> antisite defects<\/i>
\nPhys. Rev. B (Rapid Communications) 102, 140407(R) (2020) (PDF<\/a>)<\/p>\n

87.\u00a0R. L. R. C. Teixeira, D. Kuzmanovski, A. M. Black-Schaffer<\/strong>, and L. G. G. V. Dias da Silva
\nEnhanced Majorana\u00a0bound states in magnetic chains on superconducting topological insulator edges<\/i>
\nPhys. Rev. B 102, 165312 (2020) (PDF<\/a>)<\/p>\n

86.\u00a0P. Dutta<\/u>\u00a0, K. R. Alves<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nThermoelectricity carried by proximity-induced odd-frequency pairing in ferromagnet\/superconductor junctions<\/i>
\nPhys. Rev. B 102, 094513 (2020) (PDF<\/a>)<\/p>\n

85.\u00a0M. Mashkoori<\/u>, S. Pradhan, K. Bj\u00f6rnson, J. Fransson, and\u00a0A. M. Black-Schaffer<\/strong>
\nIdentification of topological superconductivity in magnetic impurity systems using\u00a0bulk spin-polarization<\/i>
\nPhys. Rev. B 102, 104501 (2020) (PDF<\/a>)<\/p>\n

84.\u00a0F. Parhizgar<\/u> and A. M. Black-Schaffer<\/strong>
\nLarge Josephson current in Weyl nodal loop semimetals due to odd-frequency superconductivity<\/em>
\nnjp Quantum Mater. 5, 42 (2020) (PDF<\/a>)<\/p>\n

83.\u00a0S. Tamura, S. Nakosai, \u00a0A. M. Black-Schaffer<\/strong>, Y. Tanaka, and J. Cayao<\/u>
\nBulk odd-frequency pairing in the superconducting Su-Schrieffer-Heeger model<\/i>
\nPhys. Rev. B 101, 214507 (2020)\u00a0(PDF<\/a>)<\/p>\n

82.\u00a0J. Schmidt<\/u>, F. Parhizgar<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nOdd-frequency superconductivity and Meissner effect in the doped topological insulator Bi2<\/sub>Se3<\/sub><\/em>
\nPhys. Rev. B (Rapid Communications) 101, 180512(R) (2020) (PDF<\/a>)<\/p>\n

81.\u00a0J. Cayao<\/u>, C. Triola<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nOdd-frequency superconducting pairing in one-dimensional systems<\/i>
\nEur. Phys. J. Spec. Top. 229, 545 (2020) (PDF<\/a>)<\/p>\n

80.\u00a0P. Dutta<\/u>, F. Parhizgar<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nFinite Josephson current and chirality blockade removal from inter-orbital pairing in magnetic Weyl semimetals<\/i>
\nPhys. Rev. B 101, 064514\u00a0(2020) (PDF<\/a>)<\/p>\n

79.\u00a0D. Kuzmanovski, A. M. Black-Schaffer<\/strong>, and J. Cayao<\/u>
\nSuppression of odd-frequency pairing by phase-disorder in a nanowire coupled to Majorana zero modes<\/i>
\nPhys. Rev. B 101, 094506 (2020) (PDF<\/a>)<\/p>\n

78.\u00a0C. Triola<\/u>, J. Cayao<\/u>, and\u00a0A. M. Black-Schaffer<\/strong>
\nThe role of odd-frequency pairing in multiband superconctors<\/i>
\nAnn. Phys. 532, 1900298 (2020) (PDF<\/a>)<\/p>\n

77.\u00a0A. Theiler<\/u>, K. Bj\u00f6rnson<\/u>, and A. M. Black-Schaffer<\/strong>
\nMajorana bound state localization and energy oscillations for magnetic impurity chains on conventional superconductors <\/em>
\nPhys. Rev. B 100, 214504 (2019) (PDF<\/a>)<\/p>\n

76.\u00a0A. Bouhon<\/u>, A. M. Black-Schaffer<\/strong>, and R.-J. Slager
\nWilson loop approach to fragile topology of split elementary band representations and topological crystalline insulators with time reversal symmetry <\/em>
\nPhys. Rev. B 100, 195135 (2019) (PDF<\/a>). Editors’ Suggestion.<\/p>\n

75.\u00a0C. Triola\u00a0<\/u>and A. M. Black-Schaffer<\/strong>
\nOdd-frequency superconductivity induced by non-magnetic impurities<\/i>
\nPhys. Rev. B 100, 144511 (2019) (PDF<\/a>)<\/p>\n

74.\u00a0A. Tsintzis<\/u>,\u00a0A. M. Black-Schaffer<\/strong>, and J. Cayao<\/u>
\nOdd-frequency superconducting pairing in Kitaev-based junctions<\/i>
\nPhys. Rev. B 100, 115433 (2019) (PDF<\/a>)<\/p>\n

73. O. A. Awoga<\/u>, J. Cayao<\/u>\u00a0and A. M. Black-Schaffer<\/strong>
\nSupercurrent detection of\u00a0topologically trivial zero-energy states in nanowire junctions<\/i>
\nPhys. Rev. Lett. 123, 117001 (2019) (PDF<\/a>)<\/p>\n

72. P. Dutta<\/u> and A. M. Black-Schaffer<\/strong>
\nSignature of\u00a0odd-frequency equal-spin triplet pairing in the\u00a0Josephson\u00a0current on the surface of Weyl nodal loop semimetals <\/i>
\nPhys. Rev. B 100, 104511 (2019) (PDF<\/a>)<\/p>\n

71.\u00a0C. Triola<\/u> and A. M. Black-Schaffer<\/strong>
\nOdd-frequency pairing in a superconductor coupled to two parallel nanowires<\/em>
\nPhys. Rev. B 100, 024512 (2019) (PDF<\/a>)<\/p>\n

70.\u00a0R. L. R. C. Teixeira<\/u>, D. Kuzmanovski<\/u>, A. M. Black-Schaffer<\/strong>, and L. G. G. V. Dias da Silva
\nGap oscillations and Majorana bound states in magnetic chains on superconducting honeycomb lattices<\/em>
\nPhys. Rev. B 99, 035127 (2019) (PDF<\/a>)<\/p>\n

69.\u00a0M. Mashkoori<\/u> and A. M. Black-Schaffer<\/strong>
\nMajorana bound states in magnetic impurity chains: effects of d-wave pairing<\/em>
\nPhys. Rev. B 99, 024505 (2019) (PDF<\/a>)<\/p>\n

68.\u00a0M. Mashkoori<\/u>, A. G. Moghaddam, M. H. Hajibabaee, A. M. Black-Schaffer<\/strong>, and F. Parhizgar<\/u>
\nImpact of topology on the impurity effects in extended s-wave superconductors with spin-orbit coupling<\/em>
\nPhys. Rev. B 99, 014508 (2019) (PDF<\/a>)<\/p>\n

67. J. Cayao<\/u> and A. M. Black-Schaffer<\/strong>
\nFinite length effect on supercurrents between trivial and topological superconductors<\/em>
\nEur. Phys. J. Spec. Top. 227, 1387 (2018)\u00a0(PDF<\/a>)<\/p>\n

66. J. Cayao<\/u> and A. M. Black-Schaffer<\/strong>
\nOdd-frequency superconducting pairing in junctions with Rashba spin-orbit coupling<\/em>
\nPhys. Rev. B 98, 075425 (2018)\u00a0(PDF<\/a>)<\/p>\n

65. O. A. Awoga<\/u> and A. M. Black-Schaffer<\/strong>
\nProbing unconventional superconductivity in proximitized graphene by impurity scattering<\/em>
\nPhys. Rev. B 97, 214515 (2018)\u00a0(PDF<\/a>)<\/p>\n

64. K. Bj\u00f6rnson<\/u> and A. M. Black-Schaffer<\/strong>
\nSolid state Stern-Gerlach spin-splitter for magnetic field sensoring, spintronics, and quantum computing<\/em>
\nBeilstein J. Nanotechnol. 9, 1558 (2018)\u00a0(PDF<\/a>)<\/p>\n

63. J. Cayao<\/u>, A. M. Black-Schaffer<\/strong>, E. Prada, and R. Aguado
\nAndreev spectrum and supercurrents in nanowire-based SNS junctions containing Majorana bound states<\/em>
\nBeilstein J. Nanotechnol. 9, 1339 (2018)\u00a0(PDF<\/a>)<\/p>\n

62. K. Bj\u00f6rnson<\/u> and A. M. Black-Schaffer<\/strong>
\nProbing chiral edge states in topological superconductors through spin-polarized local density of states measurements<\/em>
\nPhys. Rev. B (Rapid Communications) 97, 140504(R) (2018)\u00a0(PDF<\/a>)<\/p>\n

61. A. Bouhon<\/u>, J. Schmidt<\/u>, and A. M. Black-Schaffer<\/strong>
\nTopological nodal superconducting phases and topological phase transition in the hyperhoneycomb lattice<\/em>
\nPhys. Rev. B 97, 104508 (2018)\u00a0(PDF<\/a>)<\/p>\n

60. C. Triola<\/u> and A. M. Black-Schaffer<\/strong>
\nOdd-frequency pairing and Kerr effect in the heavy-fermion superconductor UPt3<\/em>
\nPhys. Rev. B 97, 064505 (2018)\u00a0(PDF<\/a>)<\/p>\n

59. U. Borla<\/u>, D. Kuzmanovski<\/u>, and A. M. Black-Schaffer<\/strong>
\nTuning Majorana zero modes with temperature in \u03c0-phase Josephson junctions<\/em>
\nPhys. Rev. B 97, 014507 (2018)\u00a0(PDF<\/a>)<\/p>\n

58. J. Schmidt<\/u>, D. D. Scherer and A. M. Black-Schaffer<\/strong>
\nTopological superconductivity in the extended Kitaev-Heisenberg model<\/em>
\nPhys. Rev. B 97, 014504 (2018)\u00a0(PDF<\/a>)<\/p>\n

57. J. Cayao<\/u>, P. San-Jos\u00e9, A. M. Black-Schaffer<\/strong>, R. Aguado, and E. Prada
\nMajorana splittings from critical currents in Josephson junctions<\/em>
\nPhys. Rev. B 96, 205425 (2017)\u00a0(PDF<\/a>)<\/p>\n

56. D. Kuzmanovski<\/u> and A. M. Black-Schaffer<\/strong>
\nMultiple odd-frequency superconducting states in buckled quantum spin Hall insulators with time-reversal symmetry<\/em>
\nPhys. Rev. B 96, 174509 (2017)\u00a0(PDF<\/a>)<\/p>\n

55. J. Cayao<\/u> and A. M. Black-Schaffer<\/strong>
\nOdd-frequency superconducting pairing and subgap density of states at the edge of a two-dimensional topological insulator without magnetism <\/em>
\nPhys. Rev. B 96, 155426 (2017)\u00a0(PDF<\/a>)<\/p>\n

54. L. Komendov\u00e1<\/u>, and A. M. Black-Schaffer<\/strong>
\nOdd-frequency superconductivity in Sr2RuO4 measured by Kerr rotation<\/em>
\nPhys. Rev. Lett. 119, 087001 (2017)\u00a0(PDF<\/a>)<\/p>\n

53. T. L\u00f6thman<\/u> and A. M. Black-Schaffer<\/strong>
\nUniversal phase diagrams with superconducting domes for electronic flat bands<\/em>
\nPhys. Rev. B 96, 064505 (2017)\u00a0(PDF<\/a>)<\/p>\n

52. F. Parhizgar<\/u> and A. M. Black-Schaffer<\/strong>
\nHighly tunable time-reversal-invariant topological superconductivity in topological insulator thin films<\/em>
\nSci. Rep. 7, 9817 (2017)\u00a0(PDF<\/a>)<\/p>\n

51. O. A. Awoga<\/u>, A. Bouhon<\/u>, and A. M. Black-Schaffer<\/strong>
\nDomain walls in a chiral d-wave superconductor on the honeycomb lattice<\/em>
\nPhys. Rev. B 96, 014521 (2017)\u00a0(PDF<\/a>)<\/p>\n

50. A. Bouhon<\/u> and A. M. Black-Schaffer<\/strong>
\nGlobal band topology of simple and double Dirac-point semimetals<\/em>
\nPhys. Rev. B (Rapid Communications) 95, 241101(R) (2017)\u00a0(PDF<\/a>)<\/p>\n

49. O. A. Awoga<\/u>, K. Bj\u00f6rnson<\/u>, and A. M. Black-Schaffer<\/strong>
\nDisorder robustness and protection of Majorana bound states in ferromagnetic wires on conventional superconductors<\/em>
\nPhys. Rev. B 95, 184511 (2017)\u00a0(PDF<\/a>)<\/p>\n

48. K. Bj\u00f6rnson<\/u>, A. V. Balatsky, and A. M. Black-Schaffer <\/strong>
\nSuperconducting order parameter \u03c0-phase shift in magnetic impurity wires<\/em>
\nPhys. Rev. B 95, 104521 (2017)\u00a0(PDF<\/a>)<\/p>\n

47. M. Mashkoori<\/u>, K. Bj\u00f6rnson<\/u>, and A. M. Black-Schaffer<\/strong>
\nImpurity bound states in fully gapped d-wave superconductors with subdominant order parameters<\/em>
\nSci. Rep. 7, 44107 (2017)\u00a0(PDF<\/a>)<\/p>\n

46. D. Kuzmanovski<\/u>, J. Linder, and A. M. Black-Schaffer<\/strong>
\nQuantum ground state control in superconductor-silicene structures: 0-\u03c0 transitions, \u03c60-junctions, and Majorana bound states <\/em>
\nPhys. Rev. B (Rapid Communications) 94, 180505(R) (2016)\u00a0(PDF<\/a>)<\/p>\n

45. J. Schmidt<\/u>, A. Bouhon<\/u>, and A. M. Black-Schaffer<\/strong>
\nFrom chiral d-wave to nodal line superconductivity in the harmonic honeycomb lattices<\/em>
\nPhys. Rev. B 94, 104513 (2016)\u00a0(PDF<\/a>)<\/p>\n

44. K. Bj\u00f6rnson<\/u> and A. M. Black-Schaffer<\/strong>
\nMajorana fermions at odd junctions in a wire network offerromagnetic impurities<\/em>
\nPhys. Rev. B (Rapid Communications) 94, 100501(R) (2016)\u00a0(PDF<\/a>)<\/p>\n

43. J. Fransson, A. M. Black-Schaffer<\/strong>, and A. V. Balatsky
\nMagnon Dirac materials<\/em>
\nPhys. Rev. B 94, 075401 (2016)\u00a0(PDF<\/a>)<\/p>\n

42. Banerjee, J. Fransson, A. M. Black-Schaffer<\/strong>, H. \u00c5gren, and A. V. Balatsky
\nGranular superconductor in a honeycomb lattice as a realization of bosonic Dirac material<\/em>
\nPhys. Rev. B 93, 134502 (2016)\u00a0(PDF<\/a>)<\/p>\n

41. K. Bj\u00f6rnson<\/u>, S. S. Pershoguba, A. V. Balatsky, and A. M. Black-Schaffer<\/strong>
\nSpin-polarized edge currents and Majorana fermions in one- and two-dimensional topological superconductors<\/em>
\nPhys. Rev. B 92, 214501 (2015)\u00a0(PDF<\/a>)<\/p>\n

40. A. M. Black-Schaffer<\/strong> and K. Le Hur
\nTopological superconductivity in two dimensions with mixed chirality<\/em>
\nPhys. Rev. B (Rapid Communications) 92, 140503(R) (2015)\u00a0(PDF<\/a>)<\/p>\n

39. L. Komendov\u00e1<\/u>, A. V. Balatsky, and A. M. Black-Schaffer<\/strong>
\nExperimentally observable signatures of odd-frequency pairing in multiband superconductors<\/em>
\nPhys. Rev. B 92, 094517 (2015)\u00a0(PDF<\/a>)<\/p>\n

38. S. S. Pershoguba, K. Bj\u00f6rnson<\/u>, A. M. Black-Schaffer<\/strong>, and A. V. Balatsky
\nCurrents induced by magnetic impurities in superconductors with spin-orbit coupling<\/em>
\nPhys. Rev. Lett. 115, 116602 (2015)\u00a0(PDF<\/a>)<\/p>\n

37. K. Bj\u00f6rnson<\/u> and A. M. Black-Schaffer<\/strong>
\nProbing Majorana fermions and topology in semiconductor-superconductor heterostructures<\/em>
\nPhys Rev. B 91, 214514 (2015)\u00a0(PDF<\/a>)<\/p>\n

36. A. M. Black-Schaffer<\/strong>, A. V. Balatsky, and J. Fransson
\nFilling of magnetic-impurity-induced gap in topological insulators by potential scattering<\/em>
\nPhys. Rev. B (Rapid Communications) 91, 201411(R) (2015)\u00a0(PDF<\/a>)<\/p>\n

35. J. Fransson, A. M. Black-Schaffer,<\/strong> and A. V. Balatsky
\nEngineered near-perfect back-scattering on surface of topological insulator with non-magnetic impurities<\/em>
\nPhys. Rev. B (Rapid Communications) 90, 241409(R) (2014)\u00a0(PDF<\/a>)<\/p>\n

34. F. Parhizgar<\/u> and A. M. Black-Schaffer<\/strong>
\nUnconventional proximity-induced superconductivity in bilayer systems<\/em>
\nPhys. Rev. B 90, 184517 (2014)\u00a0(PDF<\/a>)<\/p>\n

33. A. M. Black-Schaffer<\/strong> and D. Yudin
\nSpontaneous gap generation on the surface of weakly interacting topological insulators using nonmagnetic impurities<\/em>
\nPhys. Rev. B (Rapid Communications) 90, 161413(R) (2014)\u00a0(PDF<\/a>)<\/p>\n

32. A. M. Black-Schaffer<\/strong> and C. Honerkamp
\nChiral d-wave superconductivity in doped graphene<\/em>
\nJ. Phys.: Condens. Matter 26, 423201 (2014)\u00a0(PDF<\/a>).\u00a0Invited review article.<\/p>\n

31. T. L\u00f6thman<\/u> and A. M. Black-Schaffer<\/strong>
\nDefects in the (d+id)-wave superconducting state in heavily doped graphene<\/em>
\nPhys. Rev. B 90, 224504 (2014)\u00a0(PDF<\/a>)<\/p>\n

30. B. M. Wojek, P. Dziawa, J. Kowalski, A. Szczerbakow, A. M. Black-Schaffer<\/strong>, M. H. Berntsen, T. Balasubramanian, T. Story and O. Tjernberg
\nBand inversion and the topological phase transition in (Pb,Sn)Se<\/em>
\nPhys. Rev. B (Rapid Communications) 90, 161202(R) (2014)\u00a0(PDF<\/a>)<\/p>\n

29. A. M. Black-Schaffer<\/strong>, W. Wu, and K. Le Hur
\nChiral d-wave superconductivity on the honeycomb lattice close to the Mott state<\/em>
\nPhys. Rev. B 90, 054521 (2014)\u00a0(PDF<\/a>)<\/p>\n

28. T. O. Wehling, A. M. Black-Schaffer<\/strong>, and A. V. Balatsky
\nDirac materials<\/em>
\nAdv. Phys. 63, 1 (2014)\u00a0(PDF<\/a>). Invited review article.<\/p>\n

27. K. Bj\u00f6rnson<\/u> and A. M. Black-Schaffer<\/strong>
\nSkyrmion spin texture in ferromagnetic semiconductor-superconductor heterostructures<\/em>
\nPhys. Rev. B 89, 134518 (2014)\u00a0(PDF<\/a>)<\/p>\n

26. A. M. Black-Schaffer<\/strong> and A. V. Balatsky
\nOdd-frequency superconducting pairing in multiband superconductors<\/em>
\nPhys. Rev. B 88, 104514 (2013)\u00a0(PDF<\/a>)<\/p>\n

25. A. M. Black-Schaffer<\/strong>
\nChiral d-wave superconducting state in the core of a doubly quantized s-wave vortex in graphene<\/em>
\nPhys. Rev. B 88, 104506 (2013)\u00a0(PDF<\/a>)<\/p>\n

24. K. Bj\u00f6rnson<\/u> and A. M. Black-Schaffer<\/strong>
\nVortex states and Majorana fermions in spin-orbit coupled semiconductor-superconductor hybrid structures<\/em>
\nPhys. Rev. B 88, 024501 (2013)\u00a0(PDF<\/a>)<\/p>\n

23. A. M. Black-Schaffer<\/strong> and A. V. Balatsky
\nProximity-induced unconventional superconductivity in topological insulators<\/em>
\nPhys. Rev. B (Rapid Communications) 87, 220506(R) (2013)\u00a0(PDF<\/a>)<\/p>\n

22. A. M. Black-Schaffer<\/strong>, D. S. Golubev, T. Bauch, F. Lombardi, and M. Fogelstr\u00f6m
\nModel evidence of a superconducting state with a full energy gap in small cuprate islands<\/em>
\nPhys. Rev. Lett. 110, 197001 (2013)\u00a0(PDF<\/a>)<\/p>\n

21. A. M. Black-Schaffer<\/strong>
\nEdge properties and Majorana fermions in the proposed chiral d-wave superconducting state in doped graphene<\/em>
\nPhys. Rev. Lett. 109, 197001 (2012)\u00a0(PDF<\/a>)<\/p>\n

20. A. M. Black-Schaffer<\/strong> and A. V. Balatsky
\n Odd-frequency superconducting pairing in topological insulators<\/em>
\nPhys. Rev. B 86, 144506 (2012)\u00a0(PDF<\/a>)<\/p>\n

19. A. M. Black-Schaffer<\/strong> and A. V. Balatsky
\nSubsurface impurities and vacancies in a three-dimensional topological insulator<\/em>
\nPhys. Rev. B 86, 115433 (2012)\u00a0(PDF<\/a>)<\/p>\n

18. A. M. Black-Schaffer<\/strong> and A. V. Balatsky
\nStrong potential impurities on the surface of a topological insulator<\/em>
\nPhys. Rev. B (Rapid Communications) 85, 121103(R) (2012)\u00a0(PDF<\/a>)<\/p>\n

17. A. M. Black-Schaffer<\/strong> and J. Linder
\nMajorana fermions in spin-orbit coupled ferromagnetic Josephson junctions
\nPhys. Rev. B (Rapid Communications) 84, 180509 (2011)\u00a0(PDF<\/a>)<\/p>\n

16. A. M. Black-Schaffer<\/strong> and J. Linder
\nMagnetization dynamics and Majorana fermions in ferromagnetic Josephson junctions along the quantum spin Hall edge<\/em>
\nPhys. Rev. B (Rapid Communications) 83, 220511 (2011)\u00a0(PDF<\/a>)<\/p>\n

15. A. M. Black-Schaffer<\/strong>
\nSelf-consistent superconducting proximity effect at the quantum spin Hall edge<\/em>
\nPhys. Rev. B (Rapid Communications) 83, 060504 (2011)\u00a0(PDF<\/a>)<\/p>\n

14. A. M. Black-Schaffer<\/strong> and J. Linder
\nStrongly anharmonic current-phase relation in ballistic graphene Josephson junctions<\/em>
\nPhys. Rev. B 82, 184522 (2010)\u00a0(PDF<\/a>)<\/p>\n

13. T. T. Ong, A. M. Black-Schaffer<\/strong>, W. Shen, and B. A. Jones
\n Interfacial effects of Al termination on spin transport in magnetic tunnel junctions<\/em>
\nPhys. Rev. B 82, 054429 (2010)\u00a0(PDF<\/a>)<\/p>\n

12. A. M. Black-Schaffer<\/strong>
\nImportance of electron-electron interactions in the RKKY coupling in graphene<\/em>
\nPhys. Rev. B 82, 073409 (2010)\u00a0(PDF<\/a>)<\/p>\n

11. J. Linder, A. M. Black-Schaffer<\/strong>, and A. Sudb\u00f8
\nTriplet proximity effect and odd-frequency pairing in graphene<\/em>
\nPhys. Rev. B (Rapid Communications) 82, 041409 (2010)\u00a0(PDF<\/a>)<\/p>\n

10. A. M. Black-Schaffer<\/strong>
\nRKKY coupling in graphene<\/em>
\nPhys. Rev. B 81, 205416 (2010)\u00a0(PDF<\/a>)<\/p>\n

9. A. M. Black-Schaffer<\/strong> and S. Doniach
\nPossibility of measuring intrinsic electronic correlations in graphene using a d-wave contact Josephson junction<\/em>
\nPhys. Rev. B 81, 014517 (2010)\u00a0(PDF<\/a>)<\/p>\n

8. J. Linder, A. M. Black-Schaffer<\/strong>, T. Yokoyama, S. Doniach, and A. Sudb\u00f8
\nJosephson current in graphene: the role of unconventional pairing symmetries<\/em>
\nPhys. Rev. B 80 094522 (2009)\u00a0(PDF<\/a>)<\/p>\n

7. A. M. Black-Schaffer<\/strong> and S. Doniach
\nEffect of nearest neighbor spin-singlet correlations in graphene SNS Josephson junctions<\/em>
\nPhys. Rev. B 79 064502 (2009)\u00a0(PDF<\/a>)<\/p>\n

6. A. M. Black-Schaffer<\/strong> and S. Doniach
\nSelf-consistent solution for proximity effect and Josephson current in ballistic graphene SNS Josephson junctions<\/em>
\nPhys. Rev. B 78 024504 (2008)\u00a0(PDF<\/a>)<\/p>\n

5. A. M. Black-Schaffer<\/strong> and S. Doniach
\nResonating valence bonds and mean-field d-wave superconductivity in graphite<\/em>
\nPhys. Rev. B 75, 134512 (2007)\u00a0(PDF<\/a>)<\/p>\n

4. A. M. Black-Schaffer<\/strong> and K. Cho
\nFirst-principles study of the work function of nitrogen doped molybdenum (110) surface<\/em>
\nJ. Appl. Phys. 100, 124902 (2006)<\/p>\n

3. A. Heyman<\/strong> and C. B. Musgrave
\nA quantum chemical study of the atomic layer deposition of Al2O3 using AlCl3 and H2O as precursors<\/em>
\nJ. Phys. Chem. B 108, 5718 (2004)<\/p>\n

2. A. Heyman<\/strong>, I. I. Yakimenko, and K.-F. Berggren
\nBand structure and spin polarization for a one-dimensional array of quantum point contacts<\/em>
\nNanotechnology 15, 143 (2004)<\/p>\n

1. Y. Widjaja, A. Heyman<\/strong>, and C. B. Musgrave
\nDensity functional study of atomic nitrogen on the Si(100)-(2×1) surface<\/em>
\nJ. Phys. Chem. B 106, 2643 (2002)<\/p>\n

 <\/p>\n

Books and book chapters<\/h3>\n

1. A. M. Black-Schaffer<\/strong>
\nKvantfysik i material: fr\u00e5n transistorn till topologiska supraledare<\/em>
\nKosmos, Svenska fysikersamfundets \u00e5rsbok (2017) (PDF<\/a>)<\/p>\n","protected":false},"excerpt":{"rendered":"

Scientific articles (PI in bold, group members underlined, * means equal (first or last author) contribution) 154. L. Baldo, P. Holmvall, and A. M. Black-Schaffer Unifying description of competing chiral and nematic superconducting states in twisted bilayer graphene arXiv:2603.06550 (PDF) Continue Reading …<\/a><\/span><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":34,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-70","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/pages\/70"}],"collection":[{"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/comments?post=70"}],"version-history":[{"count":247,"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/pages\/70\/revisions"}],"predecessor-version":[{"id":1447,"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/pages\/70\/revisions\/1447"}],"up":[{"embeddable":true,"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/pages\/34"}],"wp:attachment":[{"href":"https:\/\/materials-theory.physics.uu.se\/black-schaffer\/index.php\/wp-json\/wp\/v2\/media?parent=70"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}