Publication – Saima Siddiqui

Peer Reviewed Journals

18. S A Siddiqui, D Hong, JE Pearson, A Hoffmann, “Antiferromagnetic Oxide Thin Films for Spintronic Applications“,Coatings 11 (7), 786 (2021). (Feature article)

17. D G Ha, M Rezaee, Y Han, S A Siddiqui, R W Day, L S Xie, B J Modtland, D A Muller, J Kong, P Kim, M Dincă, M A Baldo, “Large single crystals of two-dimensional π-conjugated metal–organic frameworks via biphasic solution-solid growth,” ACS Central Science (2020).

16. S A Siddiqui, J Sklenar, K Kang, MJ Gilbert, A Schleife, N Mason, A Hoffmann, “Metallic Antiferromagnets,” J of Appl Phys., 128, 4, 040904 (2020). (Featured perspective)

15. S A Siddiqui, S Dutta, A Tang, L Liu, C A Ross, M A Baldo, “Magnetic domain wall based synaptic and activation function generator for neuromorphic accelerators,” Nano Lett., 20, 2, 1033–1040 ( 2020).

14. J Han, P Zhang, J T Hou, S A Siddiqui, L Liu, “Mutual control of coherent spin waves and magnetic domain walls in a magnonic device,” Science 366, 6469, 1121-1125 (2019). (News)

13. S A Siddiqui, J Han, J Finley, C Ross, L Liu,”Current-induced domain wall motion in compensated ferrimagnet,” Phys. Rev. Lett. 121, 057701 (2018).

12. S A Siddiqui, S Dutta, J A Currivan-Incorvia, C A Ross and M A Baldo, “Effect of Magnetostatic Interactions on Stochastic Domain Wall Motion in Sub-100 nm Wide Nanowires,” in IEEE Mag. Lett., 9, 4101405, 1-5 (2018).

11. S Dutta*, S A Siddiqui*, J A Currivan-Incorvia, C Ross, M Baldo, “The Spatial Resolution Limit for an Individual Domain Wall in Magnetic Nanowires,” Nano Lett. 2017, 17, 9, 5869–5874 (2017). *equal contribution

10. J Han, A Richardella, S A Siddiqui, J Finley, N Samarth, L Liu, “Room-Temperature Spin-Orbit Torque Switching Induced by a Topological Insulator,” Phys. Rev. Lett. 119, 077702 (2017).

9. S Dutta, S A Siddiqui, F Büttner, L Liu, C A Ross, M A Baldo, “A logic-in-memory design with 3-terminal magnetic tunnel junction function evaluators for convolutional neural networks,” 2017 IEEE/ACM International Symposium on Nanoscale Architectures (NANOARCH), Newport, RI, 83-88 (2017).

8. J Zhang, S A Siddiqui, P Ho, J A Currivan-Incorvia, L Tryputen, E Lage, D C Bono, M A Baldo, C A Ross, “360° domain walls: stability, magnetic field and electric current effects,” New J. of Phys. 18 (5), 053028, 9 (2016).

7. E Lage, N O Urs, S A Siddiqui, M Baldo, J McCord, C A Ross, “Depinning of Domain Walls by Magnetic Fields and Current Pulses in Tapered Nanowires With Anti-Notches,” IEEE Mag. Lett. 7, 3502405, 1-5 (2016).

6. J A Currivan-Incorvia, S A Siddiqui, S Dutta, E R Evarts, J Zhang, D C Bono, C A Ross, M A Baldo, “Logic circuit prototypes for three-terminal magnetic tunnel junctions with mobile domain walls,” Nat Commun 7, 10275 (2016).

5. S Dutta, S A Siddiqui, J A Currivan-Incorvia, C A Ross, M A Baldo, “Micromagnetic modeling of domain wall motion in sub-100-nm-wide wires with individual and periodic edge defects,” AIP Advances 5 (12), 127206 (2015).

4. J Zhang, P Ho, J A Currivan-Incorvia, S A Siddiqui, M A Baldo, C Ross, “Edge-modulated perpendicular magnetic anisotropy in [Co/Pd]_n and L₁₀-FePt thin film wires,” Appl. Phys. Lett. 107, 182408 (2015).

3. J A Currivan, S A Siddiqui, S Ahn, L Tryputen, G S D Beach, M A Baldo, C A Ross, “Polymethyl methacrylate/hydrogen silsesquioxane bilayer resist electron beam lithography process for etching 25 nm wide magnetic wires,” J. Vac. Sci. Technol. B 32, 021601 (2014).

2. A Zubair, S A Siddiqui, F A Khan, M A Alim, “Electrical and magnetic properties of Co substituted MnZnFe₂O₄,” Physica status solidi (a) 209, 12, 2441-2448 (2012).

1. S A Siddiqui, A Zubair, M S Alam, “Effect of stress on the characteristics of elliptical hollow core optical fiber,” Optical Engineering 50 (4), 045002, (2011).