Gustav Nylund
Title: Postdoctoral Researcher
Research Interests: Nanoscale semiconductor devices for electronic and photonic applications. Education: Ph.D. Lund University, Sweden, Physics, 2015 M.S. Lund University, Sweden, Nanophysics and Nanoelectronics, 2010 B.S. Lund University, Sweden, Nanoscience and Nanoengineering, 2009 |
Current Research
Design, fabrication, and characterization of electrically pumped subwavelength-scale III-V semiconductor nanolasers operating at room temperature and emitting in the telecommunications C-band (1530–1565 nm), with potential to be used as ultracompact CMOS-compatible on-chip emitters of coherent light for Si-based photonics.
Peer-Reviewed Publications
10. E. Mårsell, E. Boström, A. Harth, A. Losquin, C. Guo, Y. C. Cheng, E. Lorek, S. Lehmann, G. Nylund, M. Stankovski, C. L. Arnold, M. Miranda, K. A. Dick, J. Mauritsson, C. Verdozzi, A. L’Huillier and A. Mikkelsen, “Spatial Control of Multiphoton Electron Excitations in InAs Nanowires by Varying Crystal Phase and Light Polarization”, Nano Letters, in print, (2018).
9. J. Vishal, M. Heurlin, M. Karimi, L. Hussain, M. Aghaeipour, A. Nowzari, A. Berg, G. Nylund, F. Capasso, L. Samuelson, M. Borgström and H. Pettersson, “Bias-dependent spectral tuning in InP nanowire-based photodetectors”, Nanotechnology 28(11), 114006 (2017).
8. G. Nylund, K. Storm, S. Lehmann, F. Capasso and L. Samuelson, “Designed Quasi-1D Potential Structures Realized in Compositionally Graded InAs1−xPx Nanowires”, Nano Letters 16(2), 1017–1021 (2016).
7. M. Aghaeipour, N. Anttu, G. Nylund, A. Berg, S. Lehmann and M. E. Pistol, “Optical response of wurtzite and zinc blende GaP nanowire arrays”, Optics Express 23(23), 30177–30187 (2015).
6. M. Hjort, S. Lehmann, J. Knutsson, A. A. Zakharov, Y. A. Du, S. Sakong, R. Timm, G. Nylund, E. Lundgren, P. Kratzer, K. A. Dick and A. Mikkelsen, “Electronic and Structural Differences between Wurtzite and Zinc Blende InAs Nanowire Surfaces: Experiment and Theory”, ACS Nano 8(12), 12346–12355 (2014).
5. M. Aghaeipour, N. Anttu, G. Nylund, L. Samuelson, S. Lehmann and M-E. Pistol, “Tunable absorption resonances in the ultraviolet for InP nanowire arrays”, Optics Express 22(23), 29204–29212 (2014).
4. G. Nylund, K. Storm, H. Torstensson, J. Wallentin, M. T. Borgström, D. Hessman and L. Samuelson, “Transparently Wrap-Gated Semiconductor Nanowire Arrays for Studies of Gate-Controlled Photoluminescence”, AIP Conference Proceedings 1566, 427–428 (2013).
3. K. Storm, G. Nylund, L. Samuelson and A. P. Micolich, “Realizing Lateral Wrap-Gated Nanowire FETs: Controlling Gate Length with Chemistry Rather than Lithography”, Nano Letters 12(1), 1–6 (2012).
2. K. Storm, G. Nylund, M. T. Borgström, J. Wallentin, C. Fasth, C. Thelander and L. Samuelson, “Gate-Induced Fermi Level Tuning in InP Nanowires at Efficiency Close to the Thermal Limit”, Nano Letters 11(3), 1127–1130 (2011).
1. K. Storm, G. Nylund, M. T. Borgström, J. Wallentin, C. Fasth, C. Thelander and L. Samuelson, “Dual-gate induced InP nanowire diode”, AIP Conference Proceedings 1399, 279–280 (2011).
Selected conference talks
3. G. Nylund, K. Storm, S. Lehmann and L. Samuelson, “Growth and Electrical Characterization of Spatially Composition-Graded InAs1−xPx Multilayer Nanowires”, Materials Research Society Spring Meeting, San Francisco, CA, USA (2015).
2. G. Nylund, K. Storm, H. Torstensson, J. Wallentin, M. T. Borgström, D. Hessman and L. Samuelson, “Gate-Controlled Photoluminescence Spectroscopy of Semiconductor Nanowires with Transparent Wrap-Gates”, Materials Research Society Fall Meeting, Boston, MA, USA (2013).
1. G. Nylund, K. Storm, H. Torstensson, J. Wallentin, M. T. Borgström, D. Hessman and L. Samuelson, ‘Transparently Wrap-Gated Nanowire Arrays for Studies of Gate-Controlled Photoluminescence’, International Conference on the Physics of Semiconductors, Zürich, Switzerland (2012).
9. J. Vishal, M. Heurlin, M. Karimi, L. Hussain, M. Aghaeipour, A. Nowzari, A. Berg, G. Nylund, F. Capasso, L. Samuelson, M. Borgström and H. Pettersson, “Bias-dependent spectral tuning in InP nanowire-based photodetectors”, Nanotechnology 28(11), 114006 (2017).
8. G. Nylund, K. Storm, S. Lehmann, F. Capasso and L. Samuelson, “Designed Quasi-1D Potential Structures Realized in Compositionally Graded InAs1−xPx Nanowires”, Nano Letters 16(2), 1017–1021 (2016).
7. M. Aghaeipour, N. Anttu, G. Nylund, A. Berg, S. Lehmann and M. E. Pistol, “Optical response of wurtzite and zinc blende GaP nanowire arrays”, Optics Express 23(23), 30177–30187 (2015).
6. M. Hjort, S. Lehmann, J. Knutsson, A. A. Zakharov, Y. A. Du, S. Sakong, R. Timm, G. Nylund, E. Lundgren, P. Kratzer, K. A. Dick and A. Mikkelsen, “Electronic and Structural Differences between Wurtzite and Zinc Blende InAs Nanowire Surfaces: Experiment and Theory”, ACS Nano 8(12), 12346–12355 (2014).
5. M. Aghaeipour, N. Anttu, G. Nylund, L. Samuelson, S. Lehmann and M-E. Pistol, “Tunable absorption resonances in the ultraviolet for InP nanowire arrays”, Optics Express 22(23), 29204–29212 (2014).
4. G. Nylund, K. Storm, H. Torstensson, J. Wallentin, M. T. Borgström, D. Hessman and L. Samuelson, “Transparently Wrap-Gated Semiconductor Nanowire Arrays for Studies of Gate-Controlled Photoluminescence”, AIP Conference Proceedings 1566, 427–428 (2013).
3. K. Storm, G. Nylund, L. Samuelson and A. P. Micolich, “Realizing Lateral Wrap-Gated Nanowire FETs: Controlling Gate Length with Chemistry Rather than Lithography”, Nano Letters 12(1), 1–6 (2012).
2. K. Storm, G. Nylund, M. T. Borgström, J. Wallentin, C. Fasth, C. Thelander and L. Samuelson, “Gate-Induced Fermi Level Tuning in InP Nanowires at Efficiency Close to the Thermal Limit”, Nano Letters 11(3), 1127–1130 (2011).
1. K. Storm, G. Nylund, M. T. Borgström, J. Wallentin, C. Fasth, C. Thelander and L. Samuelson, “Dual-gate induced InP nanowire diode”, AIP Conference Proceedings 1399, 279–280 (2011).
Selected conference talks
3. G. Nylund, K. Storm, S. Lehmann and L. Samuelson, “Growth and Electrical Characterization of Spatially Composition-Graded InAs1−xPx Multilayer Nanowires”, Materials Research Society Spring Meeting, San Francisco, CA, USA (2015).
2. G. Nylund, K. Storm, H. Torstensson, J. Wallentin, M. T. Borgström, D. Hessman and L. Samuelson, “Gate-Controlled Photoluminescence Spectroscopy of Semiconductor Nanowires with Transparent Wrap-Gates”, Materials Research Society Fall Meeting, Boston, MA, USA (2013).
1. G. Nylund, K. Storm, H. Torstensson, J. Wallentin, M. T. Borgström, D. Hessman and L. Samuelson, ‘Transparently Wrap-Gated Nanowire Arrays for Studies of Gate-Controlled Photoluminescence’, International Conference on the Physics of Semiconductors, Zürich, Switzerland (2012).
Contact Information
Office: 4406 Atkinson Hall
Email: [email protected]
Mailing Address:
Department of Electrical and Computer Engineering
9500 Gilman Drive, Mail Code 0407
University of California, San Diego
La Jolla, CA 92093-0407
Email: [email protected]
Mailing Address:
Department of Electrical and Computer Engineering
9500 Gilman Drive, Mail Code 0407
University of California, San Diego
La Jolla, CA 92093-0407