Your search keyword '"MacQuarrie A"' showing total 4,828 results

1. Distributed Quantum Computing in Silicon

Author

Inc, Photonic, Afzal, Francis, Akhlaghi, Mohsen, Beale, Stefanie J., Bedroya, Olinka, Bell, Kristin, Bergeron, Laurent, Bonsma-Fisher, Kent, Bychkova, Polina, Chaisson, Zachary M. E., Chartrand, Camille, Clear, Chloe, Darcie, Adam, DeAbreu, Adam, DeLisle, Colby, Duncan, Lesley A., Smith, Chad Dundas, Dunn, John, Ebrahimi, Amir, Evetts, Nathan, Pinheiro, Daker Fernandes, Fuentes, Patricio, Georgiou, Tristen, Guha, Biswarup, Haenel, Rafael, Higginbottom, Daniel, Jackson, Daniel M., Jahed, Navid, Khorshidahmad, Amin, Shandilya, Prasoon K., Kurkjian, Alexander T. K., Lauk, Nikolai, Lee-Hone, Nicholas R., Lin, Eric, Litynskyy, Rostyslav, Lock, Duncan, Ma, Lisa, MacGilp, Iain, MacQuarrie, Evan R., Mar, Aaron, Khah, Alireza Marefat, Matiash, Alex, Meyer-Scott, Evan, Michaels, Cathryn P., Motira, Juliana, Noori, Narwan Kabir, Ospadov, Egor, Patel, Ekta, Patscheider, Alexander, Paulson, Danny, Petruk, Ariel, Ravindranath, Adarsh L., Reznychenko, Bogdan, Ruether, Myles, Ruscica, Jeremy, Saxena, Kunal, Schaller, Zachary, Seidlitz, Alex, Senger, John, Lee, Youn Seok, Sevoyan, Orbel, Simmons, Stephanie, Soykal, Oney, Stott, Leea, Tran, Quyen, Tserkis, Spyros, Ulhaq, Ata, Vine, Wyatt, Weeks, Russ, Wolfowicz, Gary, and Yoneda, Isao

Subjects

Quantum Physics

Abstract

Commercially impactful quantum algorithms such as quantum chemistry and Shor's algorithm require a number of qubits and gates far beyond the capacity of any existing quantum processor. Distributed architectures, which scale horizontally by networking modules, provide a route to commercial utility and will eventually surpass the capability of any single quantum computing module. Such processors consume remote entanglement distributed between modules to realize distributed quantum logic. Networked quantum computers will therefore require the capability to rapidly distribute high fidelity entanglement between modules. Here we present preliminary demonstrations of some key distributed quantum computing protocols on silicon T centres in isotopically-enriched silicon. We demonstrate the distribution of entanglement between modules and consume it to apply a teleported gate sequence, establishing a proof-of-concept for T centres as a distributed quantum computing and networking platform., Comment: 14 pages, 13 figures

Published

2024

2. Reducing strain fluctuations in quantum dot devices by gate-layer stacking

Author

Frink, Collin C. D., Woods, Benjamin D., Losert, Merritt P., MacQuarrie, E. R., Eriksson, M. A., and Friesen, Mark

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Nanofabricated metal gate electrodes are commonly used to confine and control electrons in electrostatically defined quantum dots. However, these same gates impart a complicated strain geometry that affects the confinement potential and potentially impairs device functionality. Here we investigate strain-induced fluctuations of the potential energy in Si/SiGe heterostructures, caused by (i) lattice mismatch, (ii) materials-dependent thermal contraction, and (iii) deposition stress in the metal gates. By simulating different gate geometries, ranging from simple to realistically complicated, and including features like overlapping metal and oxide layers, we can explain most observed strain features. In particular, we show that strain-induced potential fluctuations can be suppressed by employing overlapping gates that cover the whole active region, when the oxide layers are thin. These results suggest that strain effects should not present a serious challenge to qubit uniformity when following simple design rules., Comment: 13 pages, 9 figures

Published

2023

3. Butler’s Method Applied to Zp[Cp×Cp]-Permutation Modules

Author

MacQuarrie, John W. and Estanislau, Marlon

Published

2024

4. Shifting Play Experiences during the COVID-19 Pandemic: Family Responses to Pandemic Restrictions

Author

Jessie-Lee D. McIsaac, Randi Cummings, Madison MacQuarrie, De-Lawrence Lamptey, Jane Harley, Melissa D. Rossiter, Magdalena Janus, and Joan Turner

Abstract

Children's play has shifted within the context of the COVID-19 pandemic, particularly with increased time within the family home. This study responds to the following research questions: How did COVID-19 restrictions influence children's play within and outside the home? How did parents describe their role in their children's play during the first year of the COVID-19 pandemic? Canadian Maritime families (n = 30) took part in three telephone interviews during the pandemic (July 2020, November 2020 and April 2021). Data were analyzed using qualitative description and thematic analysis to inductively identify codes and establish themes, including: (1) Facilitating play within the home; (2) Opportunities related to play outside the home; and (3) Shifting play in the outdoor environment. As families adhere to public health directives in response to COVID-19, children's play experiences were shaped by a movement toward an increased emphasis on the outdoor environment and fewer playmates. Ongoing research is needed to understand the potential impacts on children's development over time.

Published

2024

5. Quotient bifinite extensions and the finitistic dimension conjecture

Author

MacQuarrie, John William and Naves, Fernando dos Reis

Subjects

Mathematics - Representation Theory, Mathematics - Rings and Algebras

Abstract

We prove that if $B\subseteq A$ is an extension of finite dimensional algebras such that the projective dimension of $A/B$ as a $B$-bimodule is finite, if $A$ has finite finitistic dimension, then so does $B$. We exhibit examples demonstrating that the algebra $B$ appearing in such an extension can be more complicated than $A$., Comment: 6 pages. To appear in Proceedings of the AMS

Published

2023

6. Deciphering complexity in Pd–catalyzed cross-couplings

Author

Clarke, George E., Firth, James D., Ledingham, Lyndsay A., Horbaczewskyj, Chris S., Bourne, Richard A., Bray, Joshua T. W., Martin, Poppy L., Eastwood, Jonathan B., Campbell, Rebecca, Pagett, Alex, MacQuarrie, Duncan J., Slattery, John M., Lynam, Jason M., Whitwood, Adrian C., Milani, Jessica, Hart, Sam, Wilson, Julie, and Fairlamb, Ian J. S.

Published

2024

7. Depletion of lamins B1 and B2 promotes chromatin mobility and induces differential gene expression by a mesoscale-motion-dependent mechanism

Author

Pujadas Liwag, Emily M., Wei, Xiaolong, Acosta, Nicolas, Carter, Lucas M., Yang, Jiekun, Almassalha, Luay M., Jain, Surbhi, Daneshkhah, Ali, Rao, Suhas S. P., Seker-Polat, Fidan, MacQuarrie, Kyle L., Ibarra, Joe, Agrawal, Vasundhara, Aiden, Erez Lieberman, Kanemaki, Masato T., Backman, Vadim, and Adli, Mazhar

Published

2024

8. The Implementation of the Advocacy Intervention for Midlife and Older Women Who Have Experienced Intimate Partner Violence: Protocol for a Randomized Controlled Trial

Author

Lori Weeks, Kathleen Allen, Catherine Holtmann, Joni Leger, Suzanne Dupuis-Blanchard, Colleen MacQuarrie, Marilyn Macdonald, Elaine Moody, Christie Stilwell, Heather Helpard, and Danie Gagnon

Subjects

Medicine, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

BackgroundMidlife and older women who experience intimate partner violence (IPV) often have less access to supports and services than younger women. There is far less focus on research and supports for midlife and older women compared to younger women experiencing IPV, and often, neither elder abuse nor IPV services meet their needs. Few interventions are available to meet the needs of midlife and older women. ObjectiveThe goal of this randomized controlled trial is to test the effectiveness of an advocacy intervention for midlife and older women who experience IPV and to learn from the experiences of those who implement and participate in the program. MethodsThis trial is a 2-arm, unblinded, parallel, pragmatic randomized controlled trial with a qualitative component. Eligible participants will be women who live in the Maritime provinces of Canada (New Brunswick, Nova Scotia, and Prince Edward Island), who are in midlife and older (aged approximately ≥50 years), and who are currently in a relationship with an abusive partner or have recently left an abusive partner. Facilitators will be trained to deliver the intervention. The intervention will be entirely virtual and will consist of 2 components: (1) an empowerment component, which will involve sharing resources and information with the women; and (2) a social support component, which will include providing support and encouragement to women for 12 weeks. Quantitative effectiveness data will be collected from all trial participants at baseline, 3 months after the intervention, and 9 months after the intervention about the incidence and severity of IPV, physical and mental health, and safety behaviors and strategies. Qualitative interviews will be conducted with the facilitators and intervention group participants. Control group participants will receive a static, nontailored version of the advocacy intervention for midlife and older women (AIM) intervention materials after baseline data collection. ResultsA total of 12 facilitators have been trained to deliver the AIM intervention to trial participants. Participant recruitment and data collection will be completed in January 2025. Data analysis will continue throughout the data collection period, and the results will be disseminated by December 2025. ConclusionsThis research will result in the adaptation and testing of a program to support and empower midlife and older women in the Maritime provinces of Canada who experience IPV. Trial RegistrationInternational Standard Randomized Controlled Trial Registry ISRCTN30646991; https://doi.org/10.1186/ISRCTN30646991 International Registered Report Identifier (IRRID)DERR1-10.2196/57886

Published

2024

9. Waveguide-integrated silicon T centres

Author

DeAbreu, A., Bowness, C., Alizadeh, A., Chartrand, C., Brunelle, N. A., MacQuarrie, E. R., Lee-Hone, N. R., Ruether, M., Kazemi, M., Kurkjian, A. T. K., Roorda, S., Abrosimov, N. V., Pohl, H. -J., Thewalt, M. L. W., Higginbottom, D. B., and Simmons, S.

Subjects

Quantum Physics

Abstract

The performance of modular, networked quantum technologies will be strongly dependent upon the quality of their quantum light-matter interconnects. Solid-state colour centres, and in particular T centres in silicon, offer competitive technological and commercial advantages as the basis for quantum networking technologies and distributed quantum computing. These newly rediscovered silicon defects offer direct telecommunications-band photonic emission, long-lived electron and nuclear spin qubits, and proven native integration into industry-standard, CMOS-compatible, silicon-on-insulator (SOI) photonic chips at scale. Here we demonstrate further levels of integration by characterizing T centre spin ensembles in single-mode waveguides in SOI. In addition to measuring long spin T_1 times, we report on the integrated centres' optical properties. We find that the narrow homogeneous linewidth of these waveguide-integrated emitters is already sufficiently low to predict the future success of remote spin-entangling protocols with only modest cavity Purcell enhancements. We show that further improvements may still be possible by measuring nearly lifetime-limited homogeneous linewidths in isotopically pure bulk crystals. In each case the measured linewidths are more than an order of magnitude lower than previously reported and further support the view that high-performance, large-scale distributed quantum technologies based upon T centres in silicon may be attainable in the near term.

Published

2022

10. Relationship between Childhood Disability or Developmental Delay and COVID-19 Pandemic Impacts on Families across the Canadian Maritime Provinces

Author

Lamptey, De-Lawrence, McIsaac, Jessie-Lee D., MacQuarrie, Madison, Cummings, Randi, Rossiter, Melissa D., Janus, Magdalena, and Turner, Joan

Published

2024

11. Deciphering complexity in Pd–catalyzed cross-couplings

Author

George E. Clarke, James D. Firth, Lyndsay A. Ledingham, Chris S. Horbaczewskyj, Richard A. Bourne, Joshua T. W. Bray, Poppy L. Martin, Jonathan B. Eastwood, Rebecca Campbell, Alex Pagett, Duncan J. MacQuarrie, John M. Slattery, Jason M. Lynam, Adrian C. Whitwood, Jessica Milani, Sam Hart, Julie Wilson, and Ian J. S. Fairlamb

Subjects

Science

Abstract

Abstract Understanding complex reaction systems is critical in chemistry. While synthetic methods for selective formation of products are sought after, oftentimes it is the full reaction signature, i.e., complete profile of products/side-products, that informs mechanistic rationale and accelerates discovery chemistry. Here, we report a methodology using high-throughput experimentation and multivariate data analysis to examine the full signature of one of the most complicated chemical reactions catalyzed by palladium known in the chemical literature. A model Pd-catalyzed reaction was selected involving functionalization of 2-bromo-N-phenylbenzamide and multiple bond activation pathways. Principal component analysis, correspondence analysis and heatmaps with hierarchical clustering reveal the factors contributing to the variance in product distributions and show associations between solvents and reaction products. Using robust data from experiments performed with eight solvents, for four different reaction times at five different temperatures, we correlate side-products to a major dominant N-phenyl phenanthridinone product, and many other side products.

Published

2024

12. Depletion of lamins B1 and B2 promotes chromatin mobility and induces differential gene expression by a mesoscale-motion-dependent mechanism

Author

Emily M. Pujadas Liwag, Xiaolong Wei, Nicolas Acosta, Lucas M. Carter, Jiekun Yang, Luay M. Almassalha, Surbhi Jain, Ali Daneshkhah, Suhas S. P. Rao, Fidan Seker-Polat, Kyle L. MacQuarrie, Joe Ibarra, Vasundhara Agrawal, Erez Lieberman Aiden, Masato T. Kanemaki, Vadim Backman, and Mazhar Adli

Subjects

Nuclear lamina, Auxin-inducible degron system, 3D chromatin organization, Lamin-associated domains, Topologically associated domains, Partial Wave Spectroscopic Microscopy, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background B-type lamins are critical nuclear envelope proteins that interact with the three-dimensional genomic architecture. However, identifying the direct roles of B-lamins on dynamic genome organization has been challenging as their joint depletion severely impacts cell viability. To overcome this, we engineered mammalian cells to rapidly and completely degrade endogenous B-type lamins using Auxin-inducible degron technology. Results Using live-cell Dual Partial Wave Spectroscopic (Dual-PWS) microscopy, Stochastic Optical Reconstruction Microscopy (STORM), in situ Hi-C, CRISPR-Sirius, and fluorescence in situ hybridization (FISH), we demonstrate that lamin B1 and lamin B2 are critical structural components of the nuclear periphery that create a repressive compartment for peripheral-associated genes. Lamin B1 and lamin B2 depletion minimally alters higher-order chromatin folding but disrupts cell morphology, significantly increases chromatin mobility, redistributes both constitutive and facultative heterochromatin, and induces differential gene expression both within and near lamin-associated domain (LAD) boundaries. Critically, we demonstrate that chromatin territories expand as upregulated genes within LADs radially shift inwards. Our results indicate that the mechanism of action of B-type lamins comes from their role in constraining chromatin motion and spatial positioning of gene-specific loci, heterochromatin, and chromatin domains. Conclusions Our findings suggest that, while B-type lamin degradation does not significantly change genome topology, it has major implications for three-dimensional chromatin conformation at the single-cell level both at the lamina-associated periphery and the non-LAD-associated nuclear interior with concomitant genome-wide transcriptional changes. This raises intriguing questions about the individual and overlapping roles of lamin B1 and lamin B2 in cellular function and disease.

Published

2024

13. Semisimplicity and separability for pseudocompact algebras

Author

Iusenko, Kostiantyn and MacQuarrie, John

Subjects

Mathematics - Rings and Algebras, 16W80, 16D60, 18A30

Abstract

In this expository article, we give a self-contained introduction to the wonderfully well-behaved class of pseudocompact algebras, focusing on the foundational classes of semisimple and separable algebras. We give characterizations of such algebras analogous to those for finite dimensional algebras. We give a self-contained proof of the Wedderburn-Malcev Theorem for pseudocompact algebras., Comment: 21 pages

Published

2022

14. Butler's Method applied to $\mathbb{Z}_p[C_p\times C_p]$-permutation modules

Author

MacQuarrie, John and Stefano, Marlon

Subjects

Mathematics - Representation Theory

Abstract

Let $G$ be a finite $p$-group with normal subgroup $N$ of order $p$. The first author and Zalesskii have previously given a characterization of permutation modules for $\mathbb{Z}_pG$ in terms of modules for $G/N$, but the necessity of their conditions was not known. We apply a correspondence due to Butler to demonstrate the necessity of the conditions, by exhibiting highly non-trivial counterexamples to the claim that if both the $N$-invariants and the $N$-coinvariants of a given lattice $U$ are permutation modules, then so is $U$., Comment: 10 pages

Published

2022

15. Starting from the Same Spot: Exploring Mindfulness Meditation and Student Transitions in the Introductory Health Promotion Classroom

Author

MacQuarrie, Madison, Blinn, Nicole, MacLellan, Samantha, Flynn, Megan, Meisner, Jessie, Owen, Phoebe, and Spencer, Becky

Abstract

The purpose of this research was to explore student perceptions of mindfulness meditation (MM) in an introductory health promotion course, and how the use of MM during class might relate to the transitions experienced by students. Qualitative data collection took place through an online survey and in-person interviews. Data were analyzed using thematic analysis. Four key themes were identified from this research. First, that MM facilitates a sense of peace and calm; second, that MM encourages students to focus; third, MM helps promote student mental health; and finally, MM positively changes the classroom environment. Challenges and recommendations were also described.

Published

2021

16. Hydrothermal carbonization of snow crab processing by-product: Hydrochar characterization

Author

Incan, Nadyana, Hawboldt, Kelly A., and MacQuarrie, Stephanie

Published

2024

17. Lights, Sirens, and Load: Anticipatory emergency medical treatment planning causes cognitive load during emergency response driving among paramedicine students

Author

Malone, Daniel F, Sims, Alan, Irwin, Christopher, Wishart, Darren, MacQuarrie, Alexander, Bell, Andrew, and Stainer, Matthew J

Published

2024

18. The emerging commercial landscape of quantum computing

Author

MacQuarrie, Evan R., Simon, Christoph, Simmons, Stephanie, and Maine, Elicia

Subjects

Physics - Physics and Society, Quantum Physics

Abstract

Quantum computing technologies are advancing, and the class of addressable problems is expanding. Together with the emergence of new ventures and government-sponsored partnerships, these trends will help lower the barrier for new technology adoption and provide stability in an uncertain market. Until then, quantum computing presents an exciting testbed for different strategies in an emerging market., Comment: 5 pages, 1 figure

Published

2022

19. Photosynthetic conversion of carbon dioxide from cement production to microalgae biomass

Author

Dickinson, Kathryn E., Stemmler, Kevin, Bermarija, Tessa, Tibbetts, Sean M., MacQuarrie, Scott P., Bhatti, Shabana, Kozera, Catherine, O’Leary, Stephen J.B., and McGinn, Patrick J.

Published

2023

20. Holistic Measurement of Early Childhood Educators' Well-Being: A Protocol

Author

Wong, Sandie, Cumming, Tamara, MacQuarrie, Alexander, Bull, Rebecca, Robertson, Caroline, Saha, Mari, McFarland, Laura, and Logan, Helen

Abstract

Early childhood educators are key to delivering early childhood education and care (ECEC) for the benefit of children, their families and society alike. For the benefits of ECEC to be realised, however, the educators who deliver these services need to be well. Despite growing attention to attracting and retaining a high-quality early childhood workforce, little is known about the work-related psychological and physiological well-being of early childhood educators. This paper contributes an example of a protocol for an holistic study of early childhood educators' well-being. It describes the use of multiple, interdisciplinary, innovative methods to measure educators' physiological and psychological well-being, within the context of their work environment. Recommendations are provided for future studies of educators' holistic well-being.

Published

2023

21. Five organizing themes for invasive forest insect and disease management in Canada and the United States

Author

Hudgins, Emma J., Leung, Brian, MacQuarrie, Chris J.K., McCullough, Deborah G., Francis, Abraham, Lovett, Gary M., Guo, Qinfeng, Potter, Kevin M., Cullingham, Catherine I., Koch, Frank H., Bergman, Jordanna N., Binley, Allison D., Robichaud, Courtney, Henry, Morgane, Chen, Yuyan, and Bennett, Joseph R.

Published

2024

22. Alkaline subcritical water extraction of bioactive compounds and antioxidants from beach-cast brown algae (Ascophyllum Nodosum)

Author

Zhang, Yu, Hawboldt, Kelly, MacQuarrie, Stephanie, Thomas, Raymond, and Gebregiworgis, Teklab

Published

2024

23. Impact evaluation of coexisting gas CO on CO2 adsorption on biochar derived from softwood shavings

Author

Ghanbarpour Mamaghani, Zahra, Hawboldt, Kelly A., MacQuarrie, Stephanie, and Katz, Michael J.

Published

2024

24. The time-course of visual scanning behaviour of paramedicine students upon arrival at a simulated emergency call

Author

Stainer, Matthew J., MacQuarrie, Alex J., O’Loughlin, Sean, Bell, Andy, Abussi, Nick, Whitfield, Steve, and Cardell, Elizabeth

Published

2024

25. Spread management priorities to limit emerald ash borer (Agrilus planipennis) impacts on United States street trees

Author

Emma J. Hudgins, Jeffrey O. Hanson, Chris J. K. MacQuarrie, Denys Yemshanov, Christopher M. Baker, Iadine Chadès, Matthew H. Holden, Eve McDonald‐Madden, and Joseph R. Bennett

Subjects

biosecurity, mixed integer linear programming, nature‐based solutions, pest management, urban ecology, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract The invasive emerald ash borer (Agrilus planipennis) causes damage to street trees which is estimated to reach US$ 900 million over the next 30 years. Although millions of dollars are spent annually to control this species, spatiotemporal management plans are often based on rules of thumb that ignore future pest dispersal. Here, we reveal an optimal management strategy to protect urban trees in North America from A. planipennis. To achieve this, we embedded a pest dispersal model within a mixed integer programming framework. We discovered that optimized strategies consistently outperformed those based on rules of thumb, potentially resulting in the protection of an additional nearly 1 million street trees and savings of $ 629 million. Critically, the best management strategies always relied on quarantines and biological control (constituting 98–99% and 1–2% of the project budget, respectively), in contrast with current practices, where federal spending has been diverted to biological control. Our findings serve to inform future pest control efforts and can help protect many more trees from this invasive species.

Published

2024

26. Homological properties of extensions of abstract and pseudocompact algebras

Author

Iusenko, Kostiantyn and MacQuarrie, John W.

Subjects

Mathematics - K-Theory and Homology, Mathematics - Rings and Algebras, Mathematics - Representation Theory, 18G25, 16E40, 16E30, 16W80, 18A30

Abstract

We consider a class of extensions of both abstract and pseudocompact algebras, which we refer to as "strongly proj-bounded extensions". We prove that the finiteness of the left global dimension and the support of the Hochschild homology is preserved by strongly proj-bounded extensions, generalizing results of Cibils, Lanzillota, Marcos and Solotar. Moreover, we show that the finiteness of the big left finitistic dimension is preserved by strongly proj-bounded extensions. In order to construct examples, we describe a new class of extensions of algebras of finite relative global dimension, which may be of independent interest., Comment: Improvements to Section 3.2. 29 pages

Published

2021

27. Blocks of profinite groups with cyclic defect group

Author

Flores, Ricardo J. Franquiz and MacQuarrie, John W.

Subjects

Mathematics - Group Theory, Mathematics - Representation Theory

Abstract

We demonstrate that the blocks of a profinite group whose defect groups are cyclic have a Brauer tree algebra structure analogous to the case of finite groups. We show further that the Brauer tree of a block with defect group $\mathbb{Z}_{p}$ is of star type., Comment: 13 pages. To appear in the Bulletin of the London Mathematical Society

Published

2021

28. Exploring pest mitigation research and management associated with the global wood packaging supply chain: What and where are the weak links?

Author

Greenwood, Leigh F., Coyle, David R., Guerrero, María E., Hernández, Gustavo, MacQuarrie, Chris J. K., Trejo, Oscar, and Noseworthy, Meghan K.

Published

2023

29. Wood biochar as a point source CO2 adsorbent-impact of humidity on performance

Author

Ghanbarpour Mamaghani, Zahra, Hawboldt, Kelly A., MacQuarrie, Stephanie, and Katz, Michael J.

Published

2024

30. Block theory and Brauer's first main theorem for profinite groups

Author

Flores, Ricardo J. Franquiz and MacQuarrie, John W.

Subjects

Mathematics - Representation Theory

Abstract

We develop the local-global theory of blocks for profinite groups. Given a field $k$ of characteristic $p$ and a profinite group $G$, one may express the completed group algebra $k[[G]]$ as a product $\prod_{i\in I}B_i$ of closed indecomposable algebras, called the blocks of $G$. To each block $B$ of $G$ we associate a pro-$p$ subgroup of $G$, called the defect group of $B$, unique up to conjugacy in $G$. We give several characterizations of the defect group in analogy with defect groups of blocks of finite groups. Our main theorem is a Brauer correspondence between the blocks of $G$ with defect group $D$ and the blocks of the normalizer $N_G(D)$ with defect group $D$., Comment: 25 pages. Final version, to be published in Advances in Mathematics

Published

2021

31. Valley splittings in Si/SiGe quantum dots with a germanium spike in the silicon well

Author

McJunkin, Thomas, MacQuarrie, E. R., Tom, Leah, Neyens, S. F., Dodson, J. P., Thorgrimsson, Brandur, Corrigan, J., Ercan, H. Ekmel, Savage, D. E., Lagally, M. G., Joynt, Robert, Coppersmith, S. N., Friesen, Mark, and Eriksson, M. A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

Silicon-germanium heterostructures have successfully hosted quantum dot qubits, but the intrinsic near-degeneracy of the two lowest valley states poses an obstacle to high fidelity quantum computing. We present a modification to the Si/SiGe heterostructure by the inclusion of a spike in germanium concentration within the quantum well in order to increase the valley splitting. The heterostructure is grown by chemical vapor deposition and magnetospectroscopy is performed on gate-defined quantum dots to measure the excited state spectrum. We demonstrate a large and widely tunable valley splitting as a function of applied vertical electric field and lateral dot confinement. We further investigate the role of the germanium spike by means of tight-binding simulations in single-electron dots and show a robust doubling of the valley splitting when the spike is present, as compared to a standard (spike-free) heterostructure. This doubling effect is nearly independent of the electric field, germanium content of the spike, and spike location. This experimental evidence of a stable, tunable quantum dot, despite a drastic change to the heterostructure, provides a foundation for future heterostructure modifications., Comment: 11 pages, 7 figures

Published

2021

32. Optical observation of single spins in silicon

Author

Kurkjian, A. T. K., Higginbottom, D. B., Chartrand, C., MacQuarrie, E. R., Klein, J. R., Lee-Hone, N. R., Stacho, J., Bowness, C., Bergeron, L., DeAbreu, A., Brunelle, N. A., Harrigan, S. R., Kanaganayagam, J., Kazemi, M., Marsden, D. W., Richards, T. S., Stott, L. A., Roorda, S., Morse, K. J., Thewalt, M. L. W., and Simmons, S.

Subjects

Quantum Physics

Abstract

The global quantum internet will require long-lived, telecommunications band photon-matter interfaces manufactured at scale. Preliminary quantum networks based upon photon-matter interfaces which meet a subset of these demands are encouraging efforts to identify new high-performance alternatives. Silicon is an ideal host for commercial-scale solid-state quantum technologies. It is already an advanced platform within the global integrated photonics and microelectronics industries, as well as host to record-setting long-lived spin qubits. Despite the overwhelming potential of the silicon quantum platform, the optical detection of individually addressable photon-spin interfaces in silicon has remained elusive. In this work we produce tens of thousands of individually addressable `$T$ centre' photon-spin qubits in integrated silicon photonic structures, and characterize their spin-dependent telecommunications-band optical transitions. These results unlock immediate opportunities to construct silicon-integrated, telecommunications-band quantum information networks., Comment: 25 pages, 10 figures

Published

2021

33. T centres in photonic silicon-on-insulator material

Author

MacQuarrie, E. R., Chartrand, C., Higginbottom, D. B., Morse, K. J., Karasyuk, V. A., Roorda, S., and Simmons, S.

Subjects

Quantum Physics, Physics - Optics

Abstract

Global quantum networks will benefit from the reliable creation and control of high-performance solid-state telecom photon-spin interfaces. T radiation damage centres in silicon provide a promising photon-spin interface due to their narrow O-band optical transition near 1326 nm and long-lived electron and nuclear spin lifetimes. To date, these defect centres have only been studied as ensembles in bulk silicon. Here, we demonstrate the reliable creation of high concentration T centre ensembles in the 220 nm device layer of silicon-on-insulator (SOI) wafers by ion implantation and subsequent annealing. We then develop a method that uses spin-dependent optical transitions to benchmark the characteristic optical spectral diffusion within these T centre ensembles. Using this new technique, we show that with minimal optimization to the fabrication process high densities of implanted T centres localized $\lesssim$100 nm from an interface display ~1 GHz characteristic levels of total spectral diffusion., Comment: 10 pages, 9 figures

Published

2021

34. Ray-based framework for state identification in quantum dot devices

Author

Zwolak, Justyna P., McJunkin, Thomas, Kalantre, Sandesh S., Neyens, Samuel F., MacQuarrie, E. R., Eriksson, Mark A., and Taylor, Jacob M.

Subjects

Quantum Physics, Computer Science - Machine Learning

Abstract

Quantum dots (QDs) defined with electrostatic gates are a leading platform for a scalable quantum computing implementation. However, with increasing numbers of qubits, the complexity of the control parameter space also grows. Traditional measurement techniques, relying on complete or near-complete exploration via two-parameter scans (images) of the device response, quickly become impractical with increasing numbers of gates. Here we propose to circumvent this challenge by introducing a measurement technique relying on one-dimensional projections of the device response in the multidimensional parameter space. Dubbed the ``ray-based classification (RBC) framework,'' we use this machine learning approach to implement a classifier for QD states, enabling automated recognition of qubit-relevant parameter regimes. We show that RBC surpasses the 82 % accuracy benchmark from the experimental implementation of image-based classification techniques from prior work while reducing the number of measurement points needed by up to 70 %. The reduction in measurement cost is a significant gain for time-intensive QD measurements and is a step forward toward the scalability of these devices. We also discuss how the RBC-based optimizer, which tunes the device to a multiqubit regime, performs when tuning in the two-dimensional and three-dimensional parameter spaces defined by plunger and barrier gates that control the QDs.This work provides experimental validation of both efficient state identification and optimization with machine learning techniques for non-traditional measurements in quantum systems with high-dimensional parameter spaces and time-intensive measurements., Comment: 9 pages, 4 figures

Published

2021

35. Magnetic gradient free two axis control of a valley spin qubit in SiGe

Author

Liu, Y. -Y., Orona, L. A., Neyens, Samuel F., MacQuarrie, E. R., Eriksson, M. A., and Yacoby, A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

Spins in SiGe quantum dots are promising candidates for quantum bits but are also challenging due to the valley degeneracy which could potentially cause spin decoherence and weak spin-orbital coupling. In this work we demonstrate that valley states can serve as an asset that enables two-axis control of a singlet-triplet qubit formed in a double quantum dot without the application of a magnetic field gradient. We measure the valley spectrum in each dot using magnetic field spectroscopy of Zeeman split triplet states. The interdot transition between ground states requires an electron to flip between valleys, which in turn provides a g-factor difference $\Delta g$ between two dots. This $\Delta g$ serves as an effective magnetic field gradient and allows for qubit rotations with a rate that increases linearly with an external magnetic field. We measured several interdot transitions and found that this valley introduced $\Delta g$ is universal and electrically tunable. This could potentially simplify scaling up quantum information processing in the SiGe platform by removing the requirement for magnetic field gradients which are difficult to engineer., Comment: 4 figures

Published

2021

36. Radio frequency reflectometry in silicon-based quantum dots

Author

Liu, Y. -Y., Philips, S. G. J., Orona, L. A., Samkharadze, N., McJunkin, T., MacQuarrie, E. R., Eriksson, M. A., Vandersypen, L. M. K., and Yacoby, A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

RF reflectometry offers a fast and sensitive method for charge sensing and spin readout in gated quantum dots. We focus in this work on the implementation of RF readout in accumulation-mode gate-defined quantum dots, where the large parasitic capacitance poses a challenge. We describe and test two methods for mitigating the effect of the parasitic capacitance, one by on-chip modifications and a second by off-chip changes. We demonstrate that these methods enable high-performance charge readout in Si/SiGe quantum dots, achieving a fidelity of 99.9% for a measurement time of 1 $\mu$s., Comment: 6 pages, 4 figures

Published

2020

37. The Maple Ridge Environmental School a Case Study: Ten Years as an Outdoor Public Elementary School and What We Think We Know Now

Author

Blenkinsop, Sean, MacQuarrie, Jodi, Maitland, Clayton, Gough, Annette, Series Editor, Gough, Noel, Series Editor, Gericke, Niklas, Editorial Board Member, Ho, Susanna, Editorial Board Member, Kesson, Kathleen, Editorial Board Member, Lee, John Chi-Kin, Editorial Board Member, Lupele, Justin, Editorial Board Member, Mannion, Greg, Editorial Board Member, O’Riley, Pat, Editorial Board Member, Reddy, Chris, Editorial Board Member, Whitehouse, Hilary, Editorial Board Member, Činčera, Jan, editor, Johnson, Bruce, editor, Goldman, Daphne, editor, Alkaher, Iris, editor, and Medek, Michal, editor

Published

2023

38. Langerhans Cell Histiocytosis

Author

MacQuarrie, Kyle L., Sarwark, John F., editor, and Carl, Rebecca L., editor

Published

2023

39. Paracrine cross-talk between human adipose tissue-derived endothelial cells and perivascular cells accelerates the endothelialization of an electrospun ionomeric polyurethane scaffold

Author

Antonyshyn, Jeremy A., MacQuarrie, Kate D., McFadden, Meghan J., Gramolini, Anthony O., Hofer, Stefan O.P., and Santerre, J. Paul

Published

2024

40. Effect of a severe cold spell on overwintering survival of an invasive forest insect pest

Author

MacQuarrie, Chris J K, Derry, Victoria, Gray, Meghan, Mielewczyk, Nicole, Crossland, Donna, Ogden, Jeffrey B, Boulanger, Yan, and Fidgen, Jeffrey G

Published

2024

41. Investigation of seepage near the interface between an embankment dam and a concrete structure: monitoring and modelling of seasonal temperature trends

Author

Yun, Tana, Butler, Karl E., and MacQuarrie, Kerry T.B.

Subjects

Dams -- Mechanical properties, Embankments -- Mechanical properties, Seepage -- Analysis, Structural dynamics -- Models, Earth sciences

Abstract

Seasonal subsurface temperature monitoring, which exploits the fact that increased seepage flow may locally alter the temperature distribution, is a useful approach for leakage monitoring and evaluation within embankment dams and their foundations. At the Mactaquac Generating Station, New Brunswick, Canada, spatial and temporal variations of temperature have been monitored and modelled at the steeply inclined interface between the compacted clay till core of the embankment dam and an abutting concrete diversion sluiceway. Over a 4-year period, two seasonally recurring anomalies at different depths were observed by fibre optic distributed temperature sensing in the concrete structure close to the interface. A 3D coupled flow and heat transport model was developed in FEFLOW to simulate temperature distribution within the dam resulting from seasonal variations in air and reservoir temperature. Leakage zones near the interface were simulated in the concrete and embankment. At a depth of 13 m below the crest, the significant lag time between temperature variations in the reservoir and dam core shows that the leakage responsible for an observed temperature anomaly must be limited to enhanced flow within the concrete. At much shallower depths, where seasonal reservoir and dam core temperatures fluctuate nearly in phase, seepage paths are more challenging to determine. Key words: Mactaquac dam seepage investigation, embankment/concrete interface, seasonal temperature monitoring, coupled flow and heat transport modelling, distributed temperature sensing (DTS), Introduction Internal erosion, meaning the loss of fine-grained materials due to locally high seepage, is one of the major reasons for embankment dam failure (Fell et al. 1992). Foster et [...]

Published

2023

42. Effect of a severe cold spell on overwintering survival of an invasive forest insect pest

Author

Chris J K MacQuarrie, Victoria Derry, Meghan Gray, Nicole Mielewczyk, Donna Crossland, Jeffrey B Ogden, Yan Boulanger, and Jeffrey G Fidgen

Subjects

Population dynamics, Mortality, Overwintering, Cold tolerance, Zoology, QL1-991

Abstract

Cold temperatures can play a significant role in the range and impact of pest insects. Severe cold events can reduce the size of insect outbreaks and perhaps even cause outbreaks to end. Measuring the precise impact of cold events, however, can be difficult because estimates of insect mortality are often made at the end of the winter season. In late January 2023 long-term climate models predicted a significant cold event to occur over eastern North America. We used this event to evaluate the immediate impact on hemlock woolly adelgid (Adelges tsugae Annand) overwintering mortality at four sites on the northern edge of the insects invaded range in eastern North America. We observed complete mortality, partial mortality and no effects on hemlock woolly adelgid mortality that correlated with the location of populations and strength of the cold event. Our data showed support for preconditioning of overwintering adelgids having an impact on their overwintering survival following this severe cold event. Finally, we compared the climatic conditions at our sites to historical weather data and previous observations of mortality in Nova Scotia. The cold event observed in February 2023 resulted in the coldest temperatures observed at these sites, including the period within which hemlock woolly adelgid invaded, suggesting cold conditions, especially under anthropogenic climate forcing, may not be a limiting factor in determining the ultimate northern range of hemlock woolly adelgid in eastern North America.

Published

2024

43. Coherent control and spectroscopy of a semiconductor quantum dot Wigner molecule

Author

Corrigan, J., Dodson, J. P., Ercan, H. Ekmel, Abadillo-Uriel, J. C., Thorgrimsson, Brandur, Knapp, T. J., Holman, Nathan, McJunkin, Thomas, Neyens, Samuel F., MacQuarrie, E. R., Foote, Ryan H., Edge, L. F., Friesen, Mark, Coppersmith, S. N., and Eriksson, M. A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

Multi-electron semiconductor quantum dots have found wide application in qubits, where they enable readout and enhance polarizability. However, coherent control in such dots has typically been restricted to only the lowest two levels, and such control in the strongly interacting regime has not been realized. Here we report quantum control of eight different resonances in a silicon-based quantum dot. We use qubit readout to perform spectroscopy, revealing a dense set of energy levels with characteristic spacing far smaller than the single-particle energy. By comparing with full configuration interaction calculations, we argue that the dense set of levels arises from Wigner-molecule physics.

Published

2020

44. Fabrication process and failure analysis for robust quantum dots in silicon

Author

Dodson, J. P., Holman, Nathan, Thorgrimsson, Brandur, Neyens, Samuel F., MacQuarrie, E. R., McJunkin, Thomas, Foote, Ryan H., Edge, L. F., Coppersmith, S. N., and Eriksson, M. A.

Subjects

Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

We present an improved fabrication process for overlapping aluminum gate quantum dot devices on Si/SiGe heterostructures that incorporates low-temperature inter-gate oxidation, thermal annealing of gate oxide, on-chip electrostatic discharge (ESD) protection, and an optimized interconnect process for thermal budget considerations. This process reduces gate-to-gate leakage, damage from ESD, dewetting of aluminum, and formation of undesired alloys in device interconnects. Additionally, cross-sectional scanning transmission electron microscopy (STEM) images elucidate gate electrode morphology in the active region as device geometry is varied. We show that overlapping aluminum gate layers homogeneously conform to the topology beneath them, independent of gate geometry, and identify critical dimensions in the gate geometry where pattern transfer becomes non-ideal, causing device failure., Comment: 5 figures, 9 pages

Published

2020

45. Progress Towards a Capacitively Mediated CNOT Between Two Charge Qubits in Si/SiGe

Author

MacQuarrie, E. R., Neyens, Samuel F., Dodson, J. P., Corrigan, J., Thorgrimsson, Brandur, Holman, Nathan, Palma, M., Edge, L. F., Friesen, Mark, Coppersmith, S. N., and Eriksson, M. A.

Subjects

Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Fast operations, an easily tunable Hamiltonian, and a straightforward two-qubit interaction make charge qubits a useful tool for benchmarking device performance and exploring two-qubit dynamics. Here, we tune a linear chain of four Si/SiGe quantum dots to host two double dot charge qubits. Using the capacitance between the double dots to mediate a strong two-qubit interaction, we simultaneously drive coherent transitions to generate correlations between the qubits. We then sequentially pulse the qubits to drive one qubit conditionally on the state of the other. We find that a conditional $\pi$-rotation can be driven in just 74 ps with a modest fidelity demonstrating the possibility of two-qubit operations with a 13.5 GHz clockspeed., Comment: Main text plus supplemental information, 24 pages, 13 figures total)

Published

2020

46. Biochar from brown algae: Production, activation, and characterisation

Author

Pak, Tannaz, Gomari, Kamal Elyasi, Bose, Suranjana, Tonon, Thierry, Hughes, David, Gronnow, Mark, and Macquarrie, Duncan

Published

2023

47. Bio-based nitrogen doped carbon-silica composites from low value sugarcane by-products for the selective adsorption of Au(III) from aqueous systems

Author

Duengsuwan, Sukhumarn, Sangon, Suwiwat, Noppawan, Pakin, Ngernyen, Yuvarat, MacQuarrie, Duncan, Scott, Janet L., Supanchaiyamat, Nontipa, and Hunt, Andrew J.

Published

2023

48. Exploring Parents' Perceptions of Preschoolers' Risky Outdoor Play Using a Socio-Ecological Lens

Author

MacQuarrie, Madison, McIsaac, Jessie-Lee D., Cawley, Jane, Kirk, Sara F. L., Kolen, Angela M., Rehman, Laurene, Spencer, Rebecca A., and Stone, Michelle R.

Abstract

Outdoor play with its risks is necessary for optimal child development. Increasing attention is being paid to factors influencing children's opportunities for risky outdoor play, with parent/guardian (hereafter parent) perceptions being an important, under-researched topic. This research explored parents' perceptions of preschoolers' risky outdoor play. Interviews were held with 19 parents of preschoolers in Nova Scotia, Canada. Bronfenbrenner's ecological model was used to consider levels of influence related to parents' perceptions of risky outdoor play. A qualitative descriptive approach identified key themes from interviews. Microsystem-level factors influencing parents' perceptions included children's age, size, ability to self-assess, and comfort with risk. Mesosystem-level factors were children's companions and supervision during play. Exosystem-level factors included neighborhood location, perceived safety, and house type. Macrosystem and chronosystem-level factors included how parents' perceptions of weather and season affected children's play, and the influences of higher societal expectations of injury avoidance on children's play over time. Findings can be used to inform strategies to promote children's quality outdoor play through understanding the factors influencing parents' perceptions of preschoolers' risky outdoor play.

Published

2022

49. Crudden culture

Author

MacQuarrie, Stephanie, Smith, Christene, and Bruce, Megan

Subjects

Chemistry

Abstract

Rarely does a Chemistry Professor have such an impact that an entire culture has been created around her teaching and learning in the lab, classroom, and life. Cathleen Crudden's colleagues [...]

Published

2023

50. Correction: Exploring pest mitigation research and management associated with the global wood packaging supply chain: What and where are the weak links?

Author

Greenwood, Leigh F., Coyle, David R., Guerrero, María E., Hernández, Gustavo, MacQuarrie, Chris J. K., Trejo, Oscar, and Noseworthy, Meghan K.

Published

2024