Pawel Hawrylak

Pawel Hawrylak
Pawel Hawrylak
Born
🏳️ Nationality	Polish-Canadian
💼 Occupation	Theoretical physicist and academic
🏅 Awards	Fellow of the American Physical Society (1996); Fellow of the Royal Society of Canada (2006); Humboldt Research Award (1999; 2023); Canadian Association of Physicists Brockhouse Medal (2002)
🌐 Website	www.uottawa.ca/faculty-science/professors/pawel-hawrylak

Pawel Hawrylak is a Polish-Canadian physicist who works in theoretical condensed matter physics, with research interests including low-dimensional and nanostructured materials and light–matter interaction at the nanoscale.^[5]

Education

Hawrylak received an MSc in physics from Wroclaw University of Science and Technology (1979) and a PhD in condensed matter theory with Kumbke Subbaswamy from the University of Kentucky in 1984 with thesis on intercalated graphite.^{[citation needed]}

Career

After postdoctoral work with J.J. Quinn at Brown University, Hawrylak joined the National Research Council of Canada in Ottawa in 1987, later becoming a principal research officer and leader of a quantum theory group.^{[citation needed]}

In 2014, he joined the University of Ottawa as a professor of physics and held a university research chair in quantum theory of materials, nanostructures and devices (2014–2024).^[6]^[7]

Hawrylak has served on international committees and editorial boards, including as an executive editor of Solid State Communications.^[8]

Research

Hawrylak's research includes theoretical and computational studies of low-dimensional and nanostructured materials, including light–matter interaction at the nanoscale (nanophotonics) and spin-related effects in semiconductor and graphene nanostructures (spintronics).^[5] ^[9] His work on quantum dots includes theoretical studies of excitonic effects and "artificial atom" models for self-assembled quantum dots.^[5]^[10]^[11]^[12]^[13]^{[excessive citations]} Related work includes studies of addition spectra and spin blockade in lateral quantum dots.^[14] He has also worked on graphene-based nanostructures, including graphene quantum dots.^[5]^[15]

Awards and honours

Hawrylak was elected a Fellow of the American Physical Society (APS) (1996),^[1] and a Fellow of the Royal Society of Canada (2006).^[2]

He received the Humboldt Research Award (1999; 2023)^[3] and the Canadian Association of Physicists Brockhouse Medal (2002).^[4]

Additional honours include a Queen Elizabeth II Diamond Jubilee Medal (2012)^[16] and an honorary doctorate from the University of Crete (2014).^[17]

Selected publications

Hawrylak, P. (1991). "Optical properties of a two-dimensional electron gas: Evolution of spectra from excitons to Fermi-edge singularities". Physical Review B. 44 (8): 3821.
Hawrylak, P. (1993). "Single Electron Capacitance Spectroscopy of Artificial Atoms: Theory and Experiment". Physical Review Letters. 71: 3347.
Ciorga, M.; Sachrajda, A. S.; Hawrylak, P.; Gould, C.; Zawadzki, P.; Jullian, S.; Feng, Y.; Wasilewski, Z. (2000). "Addition spectrum of a lateral dot from Coulomb and spin-blockade spectroscopy". Physical Review B. 61: R16315.
Bayer, M.; Hawrylak, P.; Hinzer, K.; Fafard, S.; Korkusinski, M.; Wasilewski, Z. R.; Stern, O.; Forchel, A. (2001). "Coupling and entangling of quantum states in quantum dot molecules". Science. 291: 451.
Hawrylak, P. (1999). "Excitonic artificial atoms: engineering optical properties of quantum dots". Physical Review B. 60: 5597.
Bayer, M.; Ortner, G.; Stern, O.; Kuther, A.; Gorbunov, A. A.; Forchel, A.; Hawrylak, P.; Fafard, S.; Hinzer, K.; Reinecke, T. L.; Walck, S. N.; Reithmaier, J. P.; Klopf, F.; Schäfer, F. (2002). "Fine structure of neutral and charged excitons in self-assembled In(Ga)As/(Al)GaAs quantum dots". Physical Review B. 65: 195315.
Bayer, M.; Stern, O.; Hawrylak, P.; Fafard, S.; Forchel, A. (2000). "Hidden symmetries in the energy levels of excitonic artificial atoms in quantum dots". Nature. 405: 923.
Jacak, Lucjan; Hawrylak, Pawel; Wójs, Arek (1998). Quantum Dots. Berlin: Springer. Search this book on
Güçlü, Devrim; Potasz, Pawel; Korkusinski, Marek; Hawrylak, Pawel (2014). Graphene Quantum Dots. Berlin: Springer. Search this book on
Kadantsev, E. S.; Hawrylak, P. (2012). "Electronic structure of a single MoS2 monolayer". Solid State Communications. 152 (10): 909–913.
Korkusinski, Marek; Saleem, Yasser; Dusko, Amintor; Miravet, Daniel; Hawrylak, Pawel (2023). "Spontaneous spin and valley symmetry broken states of interacting massive Dirac Fermions in a bilayer graphene quantum dot". Nano Letters. 23: 7546.

References

↑ ^1.0 ^1.1 "APS Fellow Archive". www.aps.org.
↑ ^2.0 ^2.1 "RSC Fellow Archive". rsc-src.ca.
↑ ^3.0 ^3.1 "Alexander von Humboldt-Stiftung". www.humboldt-foundation.de.
↑ ^4.0 ^4.1 "Brockhouse Medal". cap.ca/.
↑ ^5.0 ^5.1 ^5.2 ^5.3 "Pawel Hawrylak | University of Ottawa". www.uottawa.ca.
↑ "Quantum Theory of Materials, Nanostructures and Devices, University of Ottawa".
↑ "Department of Physics, University of Ottawa".
↑ "Solid State Communications". www.sciencedirect.com/journal/solid-state-communications.
↑ "A single-spin transistor". physicstoday.aip.org.
↑ Hawrylak, P. (1993). "Single Electron Capacitance Spectroscopy of Artificial Atoms: Theory and Experiment". Physical Review Letters. 71: 3347.
↑ Hawrylak, P. (1999). "Excitonic artificial atoms: engineering optical properties of quantum dots". Physical Review B. 60: 5597.
↑ Bayer, M.; Stern, O.; Hawrylak, P.; Fafard, S.; Forchel, A. (2000). "Hidden symmetries in the energy levels of excitonic artificial atoms in quantum dots". Nature. 405: 923.
↑ Jacak, L.; Hawrylak, P.; Wójs, A. (1998). Quantum Dots. Berlin: Springer. Search this book on
↑ Ciorga, M.; Sachrajda, A. S.; Hawrylak, P.; Gould, C.; Zawadzki, P.; Jullian, S.; Feng, Y.; Wasilewski, Z. (2000). "Addition spectrum of a lateral dot from Coulomb and spin-blockade spectroscopy". Physical Review B. 61: R16315.
↑ Güçlü, A. D.; Potasz, P.; Korkusinski, M.; Hawrylak, P. (2014). Graphene Quantum Dots. Berlin: Springer. Search this book on
↑ "Queen Elizabeth II's Diamond Jubilee Medal". www.gg.ca.
↑ "University of Crete". www.uoc.gr.

External links

Official website
Pawel Hawrylak publications indexed by Google Scholar
Department of Physics, University of Ottawa
Quantum Theory of Materials, Nanostructures and Devices (University of Ottawa)

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[apsf-1] 1.0 ^1.1 "APS Fellow Archive". www.aps.org.

[rscf-2] 2.0 ^2.1 "RSC Fellow Archive". rsc-src.ca.

[hra-3] 3.0 ^3.1 "Alexander von Humboldt-Stiftung". www.humboldt-foundation.de.

[cap-4] 4.0 ^4.1 "Brockhouse Medal". cap.ca/.

[reliable_profile_1-5] 5.0 ^5.1 ^5.2 ^5.3 "Pawel Hawrylak | University of Ottawa". www.uottawa.ca.

[QTG-6] "Quantum Theory of Materials, Nanostructures and Devices, University of Ottawa".

[dop-7] "Department of Physics, University of Ottawa".

[ssc-8] "Solid State Communications". www.sciencedirect.com/journal/solid-state-communications.

[st-9] "A single-spin transistor". physicstoday.aip.org.

[prl_artificial_atoms_1993-10] Hawrylak, P. (1993). "Single Electron Capacitance Spectroscopy of Artificial Atoms: Theory and Experiment". Physical Review Letters. 71: 3347.

[prb_excitonic_artificial_atoms_1999-11] Hawrylak, P. (1999). "Excitonic artificial atoms: engineering optical properties of quantum dots". Physical Review B. 60: 5597.

[nature_hidden_symmetries_2000-12] Bayer, M.; Stern, O.; Hawrylak, P.; Fafard, S.; Forchel, A. (2000). "Hidden symmetries in the energy levels of excitonic artificial atoms in quantum dots". Nature. 405: 923.

[book_quantum_dots-13] Jacak, L.; Hawrylak, P.; Wójs, A. (1998). Quantum Dots. Berlin: Springer. Search this book on

[prb_addition_spectrum_2000-14] Ciorga, M.; Sachrajda, A. S.; Hawrylak, P.; Gould, C.; Zawadzki, P.; Jullian, S.; Feng, Y.; Wasilewski, Z. (2000). "Addition spectrum of a lateral dot from Coulomb and spin-blockade spectroscopy". Physical Review B. 61: R16315.

[book_graphene_qd-15] Güçlü, A. D.; Potasz, P.; Korkusinski, M.; Hawrylak, P. (2014). Graphene Quantum Dots. Berlin: Springer. Search this book on

[qedm-16] "Queen Elizabeth II's Diamond Jubilee Medal". www.gg.ca.

[hduc-17] "University of Crete". www.uoc.gr.

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