Publications Thomas Windbacher

103 records

Publications in Scientific Journals

15.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2016).
CMOS-Compatible Spintronic Devices: A Review.
Semiconductor Science and Technology, 31(11), 113006. https://doi.org/10.1088/0268-1242/31/11/113006 (reposiTUm)

14.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
Influence of Magnetization Variations in the Free Layer on a Non-Volatile Magnetic Flip Flop.
Solid-State Electronics, 108, 2–7. https://doi.org/10.1016/j.sse.2014.12.023 (reposiTUm)

13.   Windbacher, T., Ghosh, J., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
Modelling of Multipurpose Spintronic Devices.
International Journal of Nanotechnology, 12(3/4), 313. https://doi.org/10.1504/ijnt.2015.067215 (reposiTUm)

12.   Windbacher, T., Makarov, A., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2014).
Novel Bias-Field-Free Spin Transfer Oscillator.
Journal of Applied Physics, 115(17), 17C901. https://doi.org/10.1063/1.4862936 (reposiTUm)

11.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2014).
Reliability-Based Optimization of Spin-Transfer Torque Magnetic Tunnel Junction Implication Logic Gates.
Advanced Materials Research, 854, 89–95. https://doi.org/10.4028/www.scientific.net/amr.854.89 (reposiTUm)

10.   Ghosh, J., Windbacher, T., Sverdlov, V., Selberherr, S. (2014).
Spin Injection in a Semiconductor Through a Space-Charge Layer.
Solid-State Electronics, 101, 116–121. https://doi.org/10.1016/j.sse.2014.06.035 (reposiTUm)

9.   Ghosh, J., Sverdlov, V., Windbacher, T., Selberherr, S. (2014).
Spin Injection and Diffusion in Silicon Based Devices From a Space Charge Layer.
Journal of Applied Physics, 115(17), 17C503. https://doi.org/10.1063/1.4856056 (reposiTUm)

8.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Implication Logic Gates Using Spin-Transfer-Torque-Operated Magnetic Tunnel Junctions for Intrinsic Logic-In-Memory.
Solid-State Electronics, 84, 191–197. https://doi.org/10.1016/j.sse.2013.02.017 (reposiTUm)

7.   Windbacher, T., Mahmoudi, H., Makarov, A., Sverdlov, V., Selberherr, S. (2013).
Multiple Purpose Spin Transfer Torque Operated Devices.
Facta Universitatis - Series: Electronics and Energetics, 26(3), 227–238. https://doi.org/10.2298/fuee1303227w (reposiTUm)

6.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Reliability Analysis and Comparison of Implication and Reprogrammable Logic Gates in Magnetic Tunnel Junction Logic Circuits.
IEEE Transactions on Magnetics, 49(12), 5620–5628. https://doi.org/10.1109/tmag.2013.2278683 (reposiTUm)

5.   Windbacher, T., Triebl, O., Osintsev, D., Makarov, A., Sverdlov, V., Selberherr, S. (2013).
Simulation Study of an Electrically Read- And Writable Magnetic Logic Gate.
Microelectronic Engineering, 112, 188–192. https://doi.org/10.1016/j.mee.2012.12.030 (reposiTUm)

4.   Baumgartner, O., Sverdlov, V., Windbacher, T., Selberherr, S. (2011).
Perspectives of Silicon for Future Spintronic Applications From the Peculiarities of the Subband Structure in Thin Films.
IEEE Transactions on Nanotechnology, 10(4), 737–743. https://doi.org/10.1109/tnano.2010.2074211 (reposiTUm)

3.   Windbacher, T., Sverdlov, V., Baumgartner, O., Selberherr, S. (2010).
Electron Subband Structure in Strained Silicon UTB Films From the Hensel-Hasegawa-Nakayama Model - Part 1 Analytical Consideration and Strain-Induced Valley Splitting.
Solid-State Electronics, 54(2), 137–142. https://doi.org/10.1016/j.sse.2009.12.008 (reposiTUm)

2.   Sverdlov, V. A., Windbacher, T., Schanovsky, F., Selberherr, S. (2009).
Mobility Modeling in Advanced MOSFETs With Ultra-Thin Silicon Body Under Stress.
Journal of Integrated Circuits and Systems, 4(2), 55–60. https://doi.org/10.29292/jics.v4i2.298 (reposiTUm)

1.   Sverdlov, V., Baumgartner, O., Windbacher, T., Selberherr, S. (2009).
Modeling of Modern MOSFETs With Strain.
Journal of Computational Electronics, 8(3–4), 192–208. https://doi.org/10.1007/s10825-009-0291-1 (reposiTUm)

Contributions to Books

7.   Windbacher, T., Makarov, A., Selberherr, S., Mahmoudi, H., Malm, B. G., Ekström, M., Östling, M. (2019).
The Exploitation of the Spin-Transfer Torque Effect for CMOS Compatible Beyond Von Neumann Computing.
In S. K. Kurinec, S. Walia, K. Iniewski (Eds.), Energy Efficient Computing, Electronics: Devices to Systems; Devices, Circuits, and Systems Series (pp. 93–155). CRC Press. (reposiTUm)

6.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2016).
A Universal Nonvolatile Processing Environment.
In S. Luryi, J. Xu, A. Zaslavsky (Eds.), Future Trends in Microelectronics - Journey into the Unknown (pp. 83–91). John Wiley, Sons. (reposiTUm)

5.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
Novel Buffered Magnetic Logic Gate Grid.
In F. Roozeboom, V. Narayanan, K. Kakushima, P. J. Timans, E. P. Gusev, Z. Karim, S. DeGendt (Eds.), ECS Transactions (pp. 295–303). ECS Transactions. https://doi.org/10.1149/06604.0295ecst (reposiTUm)

4.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2015).
Stateful STT-MRAM-Based Logic for Beyond–Von Neumann Computing.
In T. Brozek, K. Iniewski (Eds.), Micro- and Nanoelectronics: Emerging Device Challenges and Solutions (pp. 221–250). CRC Press. https://doi.org/10.1201/b17597-11 (reposiTUm)

3.   Windbacher, T., Sverdlov, V., Selberherr, S. (2011).
Classical Device Modeling.
In D. Vasileska, S. M. Goodnick (Eds.), Nano-Electronic Devices (pp. 1–96). Springer New York. https://doi.org/10.1007/978-1-4419-8840-9_1 (reposiTUm)

2.   Windbacher, T., Sverdlov, V., Selberherr, S. (2010).
Biotin-Streptavidin Sensitive BioFETs and Their Properties.
In A. Fred, J. Filipe, H. Gamboa (Eds.), Biomedical Engineering Systems and Technologies (pp. 85–95). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-11721-3_6 (reposiTUm)

1.   Sverdlov, V., Baumgartner, O., Windbacher, T., Selberherr, S. (2010).
Silicon for Spintronic Applications: Strain-Enhanced Valley Splitting.
In S. Luryi, J. Xu, A. Zaslavsky (Eds.), Future Trends in Microelectronics (pp. 281–291). John Wiley, Sons. (reposiTUm)

Talks and Poster Presentations (with Proceedings-Entry)

72.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2017).
Analysis of a Spin-Transfer Torque Based Copy Operation of a Buffered Magnetic Processing Environment.
In Proceedings of the 21st World Multi-Conference on Systemics, Cybernetics and Informatics (WMSCI) (pp. 142–146), Orlando, Florida, USA. (reposiTUm)

71.   Selberherr, S., Windbacher, T., Makarov, A., Sverdlov, V. (2017).
Exploiting Spin-Transfer Torque for Non-Volatile Computing.
In Book of Abstracts of BIT's 3rd Annual World Congress of Smart Materials-2017 (p. 130), Singapore. (reposiTUm)

70.   Sverdlov, V., Mahmoudi, H., Windbacher, T., Makarov, A., Weinbub, J., Selberherr, S. (2017).
MTJs - Spin-Based Binary Memristors for Non-Volatile Memory and Logic Applications.
In Abstracts of the Energy-Materials-Nanotechnology Meeting on Memristive Switching, Network (EMN) (pp. 33–34), Milan, Italy. (reposiTUm)

69.   Windbacher, T., Malm, B., Sverdlov, V., Östling, M., Selberherr, S. (2016).
Influence of the Free Layer Alignment on the Reliability of a Non-Volatile Magnetic Shift Register.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (p. 43), Kona. (reposiTUm)

68.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2016).
Layer Coupling and Read Disturbances in a Buffered Magnetic Logic Environment.
In Spintronics IX (pp. 99312M-1–99312M-12), San Diego, United States. https://doi.org/10.1117/12.2236151 (reposiTUm)

67.   Windbacher, T., Mahmoudi, H., Makarov, A., Sverdlov, V., Selberherr, S. (2016).
Logic-In-Memory: A Non-Volatile Processing Environment for the Post CMOS Age.
In Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Nürnberg, Germany. (reposiTUm)

66.   Windbacher, T., Sverdlov, V., Selberherr, S. (2016).
Magnetic Nonvolatile Processing Environment.
In Program and Abstracts of the I International Scientific and Practical Conference Innovation in the Software Systems of Trains (pp. 42–43), Samara, Russia. (reposiTUm)

65.   Sverdlov, V., Makarov, A., Windbacher, T., Selberherr, S. (2016).
Magnetic Field Dependent Tunneling Magnetoresistance Through a Quantum Well Between Ferromagnetic Contacts.
In 2016 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Nuremberg, Germany. https://doi.org/10.1109/sispad.2016.7605210 (reposiTUm)

64.   Sverdlov, V., Ghosh, J., Makarov, A., Windbacher, T., Selberherr, S. (2016).
Nanoelectronics With Spin.
In Book of Abstracts of the World Congress and Expo on Nanotechnology and Materials Science (pp. 19–20), Dubai, United Arab Emirates. (reposiTUm)

63.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2016).
Novel Magnetic Devices for Memory and Non-Volatile Computing Applications.
In 2016 Conference Program of the Emerging Technologies Communication Microsystems Optoelectronics Sensing (ETCMOS) (p. 14), Montreal, QC, Canada. (reposiTUm)

62.   Makarov, A., Sverdlov, V., Windbacher, T., Selberherr, S. (2016).
Silicon Spintronics.
In Proceedings of the ICEM 2016 (p. 1), Singapur. (reposiTUm)

61.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2016).
The Exploitation of Magnetization Orientation Encoded Spin-Transfer Torque for an Ultra Dense Non-Volatile Magnetic Shift Register.
In 2016 46th European Solid-State Device Research Conference (ESSDERC), Montreux, Austria. https://doi.org/10.1109/essderc.2016.7599648 (reposiTUm)

60.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2015).
A Novel Method of SOT-MRAM Switching.
In Abstracts International Symposium on Advanced Nanodevices and Nanotechnology (ISANN), Kaanapali. (reposiTUm)

59.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
A Universal Nonvolatile Processing Environment.
In Abstracts Advanced Research Workshop on Future Trends in Microelectronics: Journey into the Unknown (p. 62), Mallorca, Spain. (reposiTUm)

58.   Sverdlov, V., Ghosh, J., Makarov, A., Windbacher, T., Selberherr, S. (2015).
CMOS-compatible Spintronic Devices.
In 2015 30th Symposium on Microelectronics Technology and Devices (SBMicro), Brasilia, Brazil. https://doi.org/10.1109/sbmicro.2015.7298103 (reposiTUm)

57.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2015).
Concept of a SOT-MRAM Based on 1Transistor-1mtj-Cell Structure.
In Extended Abstracts of the International Conference on Solid State Devices and Materials (SSDM) (pp. 140–141), Fukuoka, Japan. (reposiTUm)

56.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2015).
Efficient High-Frequency Spin-Torque Oscillators Composed of Two Three-Layer MgO-MTJs With a Common Free Layer.
In Proceedings of 21st Iberchip Worshop, Montevideo, Uruguay. (reposiTUm)

55.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
Improving the Performance of a Non-Volatile Magnetic Flip Flop by Exploiting the Spin Hall Effect.
In 2015 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Washington, DC, United States. https://doi.org/10.1109/sispad.2015.7292357 (reposiTUm)

54.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
Novel Buffered Magnetic Logic Gate Grid.
In Proceedings of the 227th ECS Meeting (ECS) (p. 2), Honolulu, Austria. (reposiTUm)

53.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2015).
Novel Spintronic Devices for Embedded Spin-Based Memories and Non-Volatile Computing.
In Abstracts of the Energy-Materials-Nanotechnology Fall Meeting (EMN) (pp. 15–16), Orlando, USA. (reposiTUm)

52.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2015).
SOT-MRAM Based on 1Transistor-1mtj-Cell Structure.
In Technical Digest of the Non-Volatile Memory Technology Symposium (NVMTS) (pp. 105–106), Beijing, China. (reposiTUm)

51.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2015).
SOT-MRAM Based on 1Transistor-1mtj-Cell Structure.
In 2015 15th Non-Volatile Memory Technology Symposium (NVMTS). https://doi.org/10.1109/nvmts.2015.7457479 (reposiTUm)

50.   Sverdlov, V., Ghosh, J., Makarov, A., Windbacher, T., Selberherr, S. (2015).
Silicon Spintronics.
In Conference Abstracts, NATO Advanced Research Workshop "Functional Nanomaterials and Devices for Electronics, Sensors, Energy Harvesting" (pp. 44–45), Lviv, Ukrain. (reposiTUm)

49.   Sverdlov, V., Ghosh, J., Makarov, A., Windbacher, T., Selberherr, S. (2015).
Silicon Spintronics: Recent Advances and Challenges.
In Proceedings of the 2015 International Conference and School for Young Scientists Information Technology and Nanotechnology (ITNT) (pp. 6–7), Samara, Russia. (reposiTUm)

48.   Sverdlov, V., Ghosh, J., Makarov, A., Windbacher, T., Selberherr, S. (2015).
Silicon and CMOS-Compatible Spintronics.
In Proceedings of the International Conference on Applied Physics, Simulation and Computers (APSAC 2015) (pp. 17–20), Vienna, Austria, Austria. (reposiTUm)

47.   Sverdlov, V., Ghosh, J., Makarov, A., Windbacher, T., Selberherr, S. (2015).
Spin-Driven Applications of Silicon and CMOS-Compatible Devices.
In Abstracts of the BIT's 5th Annual Congress of Nano Science, Technology-2015 (p. 175), Xi'an, China. (reposiTUm)

46.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2014).
Compact Modeling of Memristive IMP Gates for Reliable Stateful Logic Design.
In Proceedings of the 21st International Conference on Mixed Design of Integrated Circuits and Systems (p. 26), Gdynia, Poland. (reposiTUm)

45.   Windbacher, T., Makarov, A., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2014).
Frequency Dependence Study of a Bias Field-Free Nano-Scale Oscillator.
In 2014 International Workshop on Computational Electronics (IWCE). https://doi.org/10.1109/iwce.2014.6865862 (reposiTUm)

44.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2014).
High Performance MRAM-based Stateful Logic.
In 2014 15th International Conference on Ultimate Integration on Silicon (ULIS), Bologna, Austria. https://doi.org/10.1109/ulis.2014.6813912 (reposiTUm)

43.   Osintsev, D., Sverdlov, V., Windbacher, T., Selberherr, S. (2014).
Increasing Mobility and Spin Lifetime With Shear Strain in Thin Silicon Films.
In 2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Yokohama, Japan. https://doi.org/10.1109/sispad.2014.6931596 (reposiTUm)

42.   Windbacher, T., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2014).
Influence of Device Geometry on the Non-Volatile Magnetic Flip Flop Characteristics.
In 2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Yokohama, Japan. https://doi.org/10.1109/sispad.2014.6931622 (reposiTUm)

41.   Windbacher, T., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2014).
Influence of Magnetization Variations in the Free Layer on a Non-Volatile Magnetic Flip Flop.
In 2014 15th International Conference on Ultimate Integration on Silicon (ULIS), Bologna, Austria. https://doi.org/10.1109/ulis.2014.6813893 (reposiTUm)

40.   Sverdlov, V., Mahmoudi, H., Makarov, A., Windbacher, T., Selberherr, S. (2014).
Magnetic Tunnel Junctions for Future Memory and Logic-In-Memory Applications.
In Proceedings of the 21st International Conference on Mixed Design of Integrated Circuits and Systems (p. 17), Gdynia, Poland. (reposiTUm)

39.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2014).
Micromagnetic Modeling of a Bias-Field-Free Spin-Torque Oscillator Based on Two MgO-MTJs With a Shared Free Layer.
In Book of Abstracts (p. 166), Vienna, Austria. (reposiTUm)

38.   Sverdlov, V., Ghosh, J., Mahmoudi, H., Makarov, A., Osintsev, D., Windbacher, T., Selberherr, S. (2014).
Modeling of Spin-Based Silicon Technology.
In 2014 15th International Conference on Ultimate Integration on Silicon (ULIS), Bologna, Austria. https://doi.org/10.1109/ulis.2014.6813891 (reposiTUm)

37.   Sverdlov, V., Ghosh, J., Mahmoudi, H., Makarov, A., Osintsev, D., Windbacher, T., Selberherr, S. (2014).
Modeling Spin-Based Electronic Devices.
In 2014 29th International Conference on Microelectronics Proceedings - MIEL 2014, Beograd. https://doi.org/10.1109/miel.2014.6842081 (reposiTUm)

36.   Makarov, A., Windbacher, T., Sverdlov, V., Selberherr, S. (2014).
New Design of Spin-Torque Nano-Oscillators.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (p. 63), Kona. (reposiTUm)

35.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2014).
Pushing a Non-Volatile Magnetic Device Structure Towards a Universal CMOS Logic Replacement.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (p. 62), Kona. (reposiTUm)

34.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Design and Applications of Magnetic Tunnel Junction Based Logic Circuits.
In Proceedings of the 2013 9th Conference on Ph.D. Research in Microelectronics and Electronics (PRIME), Villach, Austria. https://doi.org/10.1109/prime.2013.6603122 (reposiTUm)

33.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Impact of Device Parameters on the Reliability of the Magnetic Tunnel Junction Based Implication Logic Gates.
In Proceedings of the 7th International Workshop "Functional Nanomaterials and Devices" (pp. 68–69), Kyiv, Ukraine. (reposiTUm)

32.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
MRAM-based Logic Array for Large-Scale Non-Volatile Logic-In-Memory Applications.
In 2013 IEEE/ACM International Symposium on Nanoscale Architectures (NANOARCH), New York City, USA. https://doi.org/10.1109/nanoarch.2013.6623033 (reposiTUm)

31.   Sverdlov, V., Mahmoudi, H., Makarov, A., Osintsev, D., Weinbub, J., Windbacher, T., Selberherr, S. (2013).
Modeling Spin-Based Devices in Silicon.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 70–71), Urbana-Champaign, IL, USA. (reposiTUm)

30.   Windbacher, T., Makarov, A., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2013).
Novel Bias-Field-Free Large Gain Spin-Transfer Oscillator.
In Abstract Book of 58th Annual Conference of Magnetism and Magnetic Materials (MMM) (pp. 456–457), San Jose, CA, USA. (reposiTUm)

29.   Windbacher, T., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2013).
Novel MTJ-based Shift Register for Non-Volatile Logic Applications.
In 2013 IEEE/ACM International Symposium on Nanoscale Architectures (NANOARCH), New York City, USA. https://doi.org/10.1109/nanoarch.2013.6623038 (reposiTUm)

28.   Windbacher, T., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2013).
Novel Non-Volatile Magnetic Flip Flop.
In In Proceedings of Seventh International School on Spintronics and Quantum Information Technology (p. 1), Cracow. (reposiTUm)

27.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Optimization of Spin-Transfer Torque Magnetic Tunnel Junction-Based Logic Gates.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 244–245), Urbana-Champaign, IL, USA. (reposiTUm)

26.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Performance Analysis and Comparison of Two 1t/1mtj-Based Logic Gates.
In 2013 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Glasgow, UK. https://doi.org/10.1109/sispad.2013.6650600 (reposiTUm)

25.   Windbacher, T., Mahmoudi, H., Sverdlov, V., Selberherr, S. (2013).
Rigorous Simulation Study of a Novel Non-Volatile Magnetic Flip-Flop.
In 2013 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Glasgow, UK. https://doi.org/10.1109/sispad.2013.6650651 (reposiTUm)

24.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
STT-MRAM-Based Reprogrammable Logic Gates for Large-Scale Non-Volatile Logic Integration.
In Proceedings of the International Conference on Nanoscale Magnetism (p. 208), Istanbul, Turkey. (reposiTUm)

23.   Mahmoudi, H., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
STT-MTJ-Based Implication Logic Circuits for Non-Volatile Logic-In-Memory Applications.
In Book of Abstracts of the 2013 Symposium on CMOS Emerging Technologies (CMOS ET 2013) (p. 1), Whistler, BC, Canada. (reposiTUm)

22.   Ghosh, J., Windbacher, T., Sverdlov, V., Selberherr, S. (2013).
Spin Injection and Diffusion in Silicon Based Devices From a Space Charge Layer.
In Abstract Book of 58th Annual Conference of Magnetism and Magnetic Materials (MMM) (pp. 713–714), San Jose, CA, USA. (reposiTUm)

21.   Windbacher, T., Triebl, O., Osintsev, D., Makarov, A., Sverdlov, V., Selberherr, S. (2013).
Switching Optimization of an Electrically Read- And Writable Magnetic Logic Gate.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 238–239), Urbana-Champaign, IL, USA. (reposiTUm)

20.   Windbacher, T., Osintsev, D., Makarov, A., Sverdlov, V., Selberherr, S. (2012).
Fully Electrically Read- Write Magneto Logic Gates.
In Book of Abstracts (p. 1), Crete, Greece. (reposiTUm)

19.   Windbacher, T., Makarov, A., Sverdlov, V., Selberherr, S. (2012).
Simulations of an Electrical Read-Write Operation of a Magnetic XOR Gate.
In Abstract of Worldwide Universities Network 4th International Conference on Spintronics (WUN-SPIN 2012) (p. J3), Sydney, Australia. (reposiTUm)

18.   Sverdlov, V., Windbacher, T., Baumgartner, O., Selberherr, S. (2009).
Electron Subband Structure and Valley Splitting in Silicon Ultra-Thin Body SOI Structures From the Two-Band k.p Model.
In EUROSOI 2009 Conference Proceedings (pp. 81–82), Granadea, Spanien, Austria. (reposiTUm)

17.   Sverdlov, V., Baumgartner, O., Windbacher, T., Schanovski, F., Selberherr, S. (2009).
Enhanced by Shear Strain Splitting of Unprimed Subbands in (001) Silicon Films and Point Contacts.
In Abstracts of the International Conference on Spintronics and Quantum Information Technology (SPINTECH) (p. 301), Cracow. (reposiTUm)

16.   Sverdlov, V., Baumgartner, O., Windbacher, T., Schanovsky, F., Selberherr, S. (2009).
Impact of Confinement and Stress on the Subband Parameters in Ultra-Thin Silicon Films.
In ECS Transactions (pp. 389–396), Ouro Preto. (reposiTUm)

15.   Sverdlov, V., Baumgartner, O., Windbacher, T., Schanovsky, F., Selberherr, S. (2009).
Impact of Confinement of Semiconductor and Band Engineering on Future Device Performance.
In 215th ECS Meeting (pp. 15–26), San Francisco. (reposiTUm)

14.   Sverdlov, V., Baumgartner, O., Windbacher, T., Selberherr, S. (2009).
Modeling Techniques for Strained CMOS Technology.
In 216th ECS Meeting (pp. 3–18), Vienna. (reposiTUm)

13.   Windbacher, T., Sverdlov, V., Selberherr, S. (2009).
Modeling of Low Concentrated Buffer DNA Detection With Suspend Gate Field-Effect Transistors (SGFET).
In 2009 13th International Workshop on Computational Electronics, Urbana-Champaign, IL, USA. https://doi.org/10.1109/iwce.2009.5091122 (reposiTUm)

12.   Sverdlov, V., Baumgartner, O., Windbacher, T., Selberherr, S. (2009).
Perspectives of Silicon for Future Spintronic Applications From the Peculiarities of the Subband Structure in Ultra-Thin Films.
In Proceedings of 2009 Silicon Nanoelectronics Workshop (pp. 95–96), Kyoto. (reposiTUm)

11.   Sverdlov, V., Baumgartner, O., Windbacher, T., Selberherr, S. (2009).
Silicon for Spintronic Applications: Strain-Enhanced Valley Splitting.
In Abstracts Advanced Research Workshop on Future Trends in Microelectronics: Unmapped Roads (p. 58), Sardinia. (reposiTUm)

10.   Windbacher, T., Sverdlov, V., Selberherr, S., Heitzinger, C., Mauser, N., Ringhofer, C. (2009).
Study of the Properties of Biotin-Streptavidin Sensitive BioFETs.
In Proceedings of the International Conference on Biomedical Electronics and Devices (BIODEVICES) (pp. 24–30), Porto. (reposiTUm)

9.   Windbacher, T., Sverdlov, V., Selberherr, S., Heitzinger, C., Mauser, N., Ringhofer, C. (2009).
Study of the Properties of Biotin-Streptavidin Sensitive Biofets.
In Final Program and Book of Abstracts (p. 42), Porto. (reposiTUm)

8.   Sverdlov, V., Baumgartner, O., Tyaginov, S., Windbacher, T., Selberherr, S. (2009).
Subband Structure in Ultra-Thin Silicon Films.
In Proceedings of the International Symposium NANOSTRUCTURES: Physics and Technology (pp. 62–63), Minsk. (reposiTUm)

7.   Sverdlov, V., Baumgartner, O., Windbacher, T., Schanovsky, F., Selberherr, S. (2009).
Thickness Dependence of the Effective Masses in a Strained Thin Silicon Film.
In 2009 International Conference on Simulation of Semiconductor Processes and Devices, San Diego, CA, United States. https://doi.org/10.1109/sispad.2009.5290252 (reposiTUm)

6.   Sverdlov, V., Windbacher, T., Baumgartner, O., Schanovsky, F., Selberherr, S. (2009).
Valley Splitting in Thin Silicon Films From a Two-Band K·p Model.
In Proceedings of the 10th International Conference on Ultimate Integration of Silicon (pp. 277–280), Bologna, Austria. (reposiTUm)

5.   Windbacher, T., Sverdlov, V., Selberherr, S., Heitzinger, C. (2008).
A General Bottom-Up Modeling Approach for BioFETs.
In Abstracts Conf.on Nanosensors for Industrial Applications (NANOSENS), Vienna, Austria. (reposiTUm)

4.   Windbacher, T., Selberherr, S. (2008).
Mobility Enhancement in Thin Silicon Films: Strain and Thickness Dependences of the Effective Masses and Non-Parabolicity Parameter.
In 2008 International Conference on Simulation of Semiconductor Processes and Devices, Kanagawa, Japan. https://doi.org/10.1109/sispad.2008.4648258 (reposiTUm)

3.   Windbacher, T., Sverdlov, V., Selberherr, S., Heitzinger, C., Mauser, N., Ringhofer, C. (2008).
Simulation of Field-Effect Biosensors (BioFETs) for Biotin-Streptavidin Complexes.
In PHYSICS OF SEMICONDUCTORS: 29th International Conference on the Physics of Semiconductors (pp. 507–508), Wien, Österreich, Austria. (reposiTUm)

2.   Windbacher, T., Sverdlov, V., Selberherr, S., Heitzinger, C., Mauser, N., Ringhofer, C. (2008).
Simulation of Field-Effect Biosensors (BioFETs).
In 2008 International Conference on Simulation of Semiconductor Processes and Devices, Kanagawa, Japan. https://doi.org/10.1109/sispad.2008.4648270 (reposiTUm)

1.   Sverdlov, V., Windbacher, T., Kosina, H., Selberherr, S. (2008).
Stress-Induced Valley Splitting in Silicon Thin Films.
In Proceedings of the 9th International Conference on Ultimate Integration on Silicon (pp. 93–96), Bologna, Austria. (reposiTUm)

Talks and Poster Presentations (without Proceedings-Entry)

1.   Windbacher, T., Ullmann, B., Grill, A., Weinbub, J. (2016).
Ihr Smartphone - Ein Supercomputer Vor 20 Jahren. Ein Einblick in Die Mikro- Und Nanoelektronik.
European Researchers’ Night: beSCIENCEd 2016, Wien, Austria. (reposiTUm)

Doctor's Theses (authored and supervised)

1.   Windbacher, T. (2010).
Engineering Gate Stacks for Field-Effect Transistors
Technische Universität Wien. https://resolver.obvsg.at/urn:nbn:at:at-ubtuw:1-42636 (reposiTUm)

Diploma and Master Theses (authored and supervised)

1.   Windbacher, T. (2006).
Automatische Korngrenzenkontaktierung Multikristalliner Silizium-Solarzellen
Technische Universität Wien. (reposiTUm)

Patents

4.  H. Mahmoudi, S. Selberherr, V. Sverdlov, T. Windbacher:
"Spin Torque Magnetic Integrated Circuit";
Patent: International, No. WO 2014/154497 A1 ; submitted: 2014-03-13, granted: 2014-10-02.

3.  T. Windbacher, V. Sverdlov, S. Selberherr, H. Mahmoudi:
"Spin Torque Magnetic Integrated Circuit";
Patent: Europe, No. EP 2784 020 A1 ; submitted: 2013-03-27, granted: 2014-10-01.

2.  H. Mahmoudi, T. Windbacher, V. Sverdlov, S. Selberherr:
"RRAM Implication Logic Gates";
Patent: International, No. WO 2014/079747 A1 ; submitted: 2013-11-13, granted: 2014-05-30.

1.  H. Mahmoudi, T. Windbacher, V. Sverdlov, S. Selberherr:
"RRAM Implication Logic Gates";
Patent: Europe, No. EP 2 736 044 A1 ; submitted: 2012-11-22, granted: 2014-05-28.

Scientific Reports

2.   Baumgartner, O., Ertl, O., Orio, R., Wagner, P.-J., Windbacher, T., Selberherr, S. (2009).
VISTA Status Report December 2009.
(reposiTUm)

1.   Baumgartner, O., Ertl, O., Gös, W., Stimpfl, F., Windbacher, T., Selberherr, S. (2008).
VISTA Status Report December 2008.
(reposiTUm)