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1. Enhanced Antiferromagnetic Phase in Metastable Self-Intercalated Cr$_{1+x}$Te$_2$ Compounds

Author

Conner, Clayton, Sarikhani, Ali, Volz, Theo, Vaninger, Mitchel, He, Xiaoqing, Kelley, Steven, Cook, Jacob, Sah, Avinash, Clark, John, Lucker, Hunter, Zhang, Cheng, Miceli, Paul, Hor, Yew San, Zhang, Xiaoqian, and Bian, Guang

Subjects
Condensed Matter - Materials Science
Abstract

Magnetic transition-metal dichalcogenides (TMDs) have been of particular interest due to their unique magnetic properties and layered structure that can be promising for a wide range of spintronic applications. One of the most exciting compounds in this family of magnets is chromium telluride, Cr$_{1+x}$Te$_2$, which has shown rich magnetic phases with varied Cr concentrations. An emergent antiferromagnetic (AFM) ordering has been found in Cr$_{1.25}$Te$_2$ (equivalently, Cr$_{5}$Te$_8$), which is induced by intercalating 0.25 Cr atom per unit cell within the van der Waals (vdW) gaps of CrTe$_2$. In this work, we report an increased N\'eel Temperature ($T_\mathrm{N}$) of the AFM phase in Cr$_{1+x}$Te$_2$ by slightly reducing the concentration of Cr intercalants. Moreover, the intercalated Cr atoms form a metastable 2$\times$2 supercell structure that can be manipulated by electron beam irradiation. This work offers a promising approach to tuning magnetic and structural properties by adjusting the concentration of self-intercalated magnetic atoms., Comment: 5 figures, 1 table

Published
2024

2. Prime Gaps In The Gaussian Integers

Author

Bradford, Kyle, Taylor, James, and Volz, George

Subjects
Mathematics - Number Theory
Abstract

In this paper we create a definition for prime gaps in the Gaussian integers using a boxcar metric. From this we used numerical methods to derive an asymptotic upper bound for the gaps in this scenario, namely O(log^2|p_{n}|).

Published
2024

3. Simple analytical model describing the collective nonlinear response of an ensemble of two-level emitters weakly coupled to a waveguide

Author

Schemmer, Max, Cordier, Martin, Pache, Lucas, Schneeweiss, Philipp, Volz, Jürgen, and Rauschenbeutel, Arno

Subjects
Quantum Physics
Abstract

We model and investigate the collective nonlinear optical response of an ensemble of two-level emitters that are weakly coupled to a single-mode waveguide. Our approach generalizes the insight that photon-photon correlations in the light scattered by a single two-level emitter result from two-photon interference to the case of many emitters. Using our model, we study different configurations for probing the nonlinear response of the ensemble, e.g., through the waveguide or via external illumination, and derive analytical expressions for the second-order quantum coherence function, $g^{(2)}(\tau)$, as well as for the squeezing spectrum of the output light in the waveguide, $S_\theta(\omega)$. For the transmission of resonant guided light, we recover the same predictions as previously made with far more involved theoretical models when analyzing experimental results regarding $g^{(2)}(\tau)$ (Prasad et al. [1]) and $S_\theta(\omega)$ (Hinney et al. [2]). We also study the transmission of light that is detuned from the transition of the two-level emitter, a situation that we recently studied experimentally (Cordier et al. [3]). Our model predictions show how the collectively enhanced nonlinear response of weakly coupled emitters can be harnessed to generate non-classical states of light using ensembles ranging from a few to many emitters.

Published
2024

4. Efficient fiber-pigtailed source of indistinguishable single photons

Author

Margaria, Nico, Pastier, Florian, Bennour, Thinhinane, Billard, Marie, Ivanov, Edouard, Hease, William, Stepanov, Petr, Adiyatullin, Albert F., Singla, Raksha, Pont, Mathias, Descampeaux, Maxime, Bernard, Alice, Pishchagin, Anton, Morassi, Martina, Lemaître, Aristide, Volz, Thomas, Giesz, Valérian, Somaschi, Niccolo, Maring, Nicolas, Boissier, Sébastien, Au, Thi Huong, and Senellart, Pascale

Subjects
Quantum Physics
Abstract

Semiconductor quantum dots in microcavities are an excellent platform for the efficient generation of indistinguishable single photons. However, their use in a wide range of quantum technologies requires their controlled fabrication and integration in compact closed-cycle cryocoolers, with a key challenge being the efficient and stable extraction of the single photons into a single-mode fiber. Here we report on a novel method for fiber-pigtailing of deterministically fabricated single-photon sources. Our technique allows for nanometer-scale alignment accuracy between the source and a fiber, alignment that persists all the way from room temperature to 2.4 K. We demonstrate high performance of the device under near-resonant optical excitation with g$^{(2)}$(0) = 1.3 %, a photon indistinguishability of 97.5 % and a fibered brightness of 20.8 %. We show that the indistinguishability and single-photon rate are stable for over ten hours of continuous operation in a single cooldown. We further confirm that the device performance is not degraded by nine successive cooldown-warmup cycles., Comment: 7 pages, 5 figures

Published
2024

5. Aryl phosphate ester-induced pericardial edema in zebrafish embryos is influenced by the ionic composition of exposure media

Author

Hoang, John, Wiegand, Jenna, Mersman, Zoe, Michalicek, Kevin, Jimenez, Nicholas, and Volz, David C

Subjects
Biological Sciences, Environmental Sciences, Chemical Sciences, Animals, Zebrafish, Embryo, Nonmammalian, Water Pollutants, Chemical, Pericardium, Organophosphates, Flame Retardants, Edema, Osmolar Concentration, Zebrafish embryos, Pericardial edema, Osmoregulation, Aryl phosphate ester, Toxicology, Biological sciences, Chemical sciences, Environmental sciences
Abstract

Pericardial edema - fluid accumulation within the pericardium - is a frequently observed malformation in zebrafish embryo-based chemical toxicity screens. We recently discovered that the severity of triphenyl phosphate (TPHP)-induced pericardial edema was dependent on the ionic strength of exposure media. TPHP is an aryl phosphate ester (APE) widely used as a plasticizer and flame retardant. APEs are characterized by having one or more aryl groups bound to a phosphate center, with TPHP containing only unsubstituted aryl groups. Therefore, the objective of this study was to begin investigating whether, similar to TPHP, pericardial edema induced by other structurally related APEs is dependent on the ionic composition of exposure media. We first mined the peer-reviewed literature to identify other APEs that 1) induced pericardial edema in zebrafish embryos within a minimum of three peer-reviewed publications, and 2) demonstrated a statistically significant induction of pericardial edema in at least 70 % of the studies evaluated. Based on this meta-analysis, we identified four other APEs that caused pericardial edema in zebrafish embryos: isopropylated triphenyl phosphate (IPTPP), cresyl diphenyl phosphate (CDP), tricresyl phosphate (TMPP), and 2-ethylhexyl diphenyl phosphate (EDHPHP). Using TPHP as a positive control and pericardial edema as a readout, we developed concentration-response curves for all four APEs based on static exposure from 24 to 72 h post-fertilization (hpf). We then conducted co-exposures with D-Mannitol (an osmotic diuretic) and exposures within reverse osmosis (RO) water determine whether the ionic composition of exposure media mitigated APE-induced pericardial edema at 72 hpf. Using pericardial edema as an endpoint, the approximate EC50s for TPHP (positive control), IPTPP, CDP, TMPP, and EDHPHP were 6.25, 3.125, 3.125, 25, and 100 µM, respectively, based on exposure from 24 to 72 hpf. Interestingly, similar to our findings with TPHP, co-exposure with D-Mannitol and exposure within ion-deficient water significantly mitigated IPTPP- CDP-, TMPP-, and EDHPHP-induced pericardial edema in zebrafish embryos, suggesting that chemically-induced pericardial edema may be 1) dependent on the ionic composition of exposure media and 2) driven by a disruption in osmoregulation across the embryonic epidermis. Therefore, similar to other assay parameters, our findings underscore the need to standardize the osmolarity of exposure media in order to minimize the potential for false positive/negative hits in zebrafish embryo-based chemical toxicity screens conducted around the world.

Published
2024

6. Three-Dimensional and Selective Displacement Sensing of a Levitated Nanoparticle via Spatial Mode Decomposition

Author

Dinter, Thomas, Roberts, Reece, Volz, Thomas, Schmidt, Mikolaj K., and Laplane, Cyril

Subjects
Physics - Optics, Quantum Physics
Abstract

We propose and experimentally demonstrate a novel detection method that significantly improves the precision of real-time measurement of the three-dimensional displacement of a levitated dipolar scatterer. Our technique relies on the spatial mode decomposition of the light scattered by the levitated object, allowing us to simultaneously and selectively extract the position information of all translational degrees of freedom with minimal losses. To this end, we collect all the light back-scattered from a levitated nanoparticle using a parabolic mirror and couple it into a spatial mode sorter. The sorter effectively demultiplexes the information content of the scattered electric field, resulting in each of the nanoparticle's translational degrees of freedom being selectively encoded in the amplitude of orthogonal optical modes. We report measurement efficiencies of ${(\eta_{^{\mathrm{tot}}}^{_{x}}, \eta_{^{\mathrm{tot}}}^{_{y}}, \eta_{^{\mathrm{tot}}}^{_{z}}) = (0.14, 0.16, 0.32)}$ $>$ 1/9, which should enable the 3D motional quantum ground state of a levitated optomechanical system. Further, we believe this technique opens up the possibility to implement coherent feedback control of a levitated nanoparticle.

Published
2024

7. Evidence for Dust Depletion in a Misaligned Protoplanetary Disk with JWST

Author

Espaillat, C. C., Thanathibodee, T., Zhu, Z., Rabago, I., Wendeborn, J., Calvet, N., Zamudio-Ruvalcaba, L., Volz, M., Pittman, C., McClure, M., Babb, J. F., Franco-Hernandez, R., Macias, E., Reynolds, M., and Yan, P. -G.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

Here we report the detection of dust depletion in a misaligned inner disk around UX Tau A using JWST MIRI spectra. Mid-infrared (MIR) continuum "seesaw" variability was detected in this disk by Spitzer and attributed to variable shadows cast on the outer disk by the inner disk. The JWST MIRI spectrum of UX Tau A also shows seesaw variability, but with a significant decrease of emission shortwards of 10 micron to nearly photospheric levels. We argue that UX Tau A's MIR continuum variability is due to depletion of dust in a misaligned inner disk. We speculate that this dust depletion occurs because the inner disk is misaligned from the outer disk, which can disrupt the replenishment of the inner disk from the outer disk. Using contemporaneous measurements of the mass accretion rate of UX Tau A and estimating the amount of dust necessary to produce the MIR excess in the Spitzer observations, we estimate a minimum dust depletion timescale of ~0.1 yr. These observations show that we can indirectly detect the signatures of misaligned inner disks through MIR continuum variability and that in some cases the inner disk may be significantly depleted of dust and become optically thin., Comment: accepted to ApJL

Published
2024

8. Realization of a magic-wavelength nanofiber-based two-color dipole trap with sub-$\lambda/2$ spacing

Author

Pache, Lucas, Cordier, Martin, Schemmer, Max, Schneeweiss, Philipp, Volz, Jürgen, and Rauschenbeutel, Arno

Subjects
Physics - Atomic Physics, Physics - Optics, Quantum Physics
Abstract

We report on the realization and characterization of a novel magic-wavelength nanofiber-based two-color optical dipole trap that allows us to generate a periodic one-dimensional array of trapping sites with a spacing significantly smaller than half of the resonant wavelength of the cesium D2-line. To this end, we launch a blue-detuned partial standing wave and two red-detuned light fields through the nanofiber. We demonstrate the trapping of atoms in the array and characterize the resulting trap configuration by measuring the trap frequencies in three directions and observe good agreement with theoretical predictions. The implementation of this nanofiber-based optical interface with magic trapping wavelengths and sub-$\lambda/2$ spacing is an important step towards the exploration of novel collective radiative effects such as selective radiance in 1D atomic arrays., Comment: 5 pages, 4 figures

Published
2024

9. Cell-derived Extracellular Matrix as maintaining Biomaterial for adipogenic differentiation

Author

Kluger Petra J., Nellinger Svenja, Heine Simon, and Volz Ann-Cathrin

Subjects
extracellular matrix, adipose-derived stem cells, differentiation, biomaterial, Medicine
Abstract

The extracellular matrix (ECM) naturally surrounds cells in humans, and therefore represents the ideal biomaterial for tissue engineering. ECM from different tissues exhibit different composition and physical characteristics. Thus, ECM provides not only physical support but also contains crucial biochemical signals that influence cell adhesion, morphology, proliferation and differentiation. Next to native ECM from mature tissue, ECM can also be obtained from the in vitro culture of cells. In this study, we aimed to highlight the supporting effect of cell-derived- ECM (cdECM) on adipogenic differentiation. ASCs were seeded on top of cdECM from ASCs (scdECM) or pre-adipocytes (acdECM). The impact of ECM on cellular activity was determined by LDH assay, WST I assay and BrdU assay. A supporting effect of cdECM substrates on adipogenic differentiation was determined by oil red O staining and subsequent quantification. Results revealed no effect of cdECM substrates on cellular activity. Regarding adipogenic differentiation a supporting effect of cdECM substrates was obtained compared to control. With these results, we confirm cdECM as a promising biomaterial for adipose tissue engineering.

Published
2020
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10. The Effects of Procedural and Conceptual Knowledge on Visual Learning

Author

Nadja Beeler, Esther Ziegler, Andreas Volz, Alexander A. Navarini, and Manu Kapur

Abstract

Even though past research suggests that visual learning may benefit from conceptual knowledge, current interventions for medical image evaluation often focus on procedural knowledge, mainly by teaching classification algorithms. We compared the efficacy of pure procedural knowledge (three-point checklist for evaluating skin lesions) versus combined procedural plus conceptual knowledge (histological explanations for each of the three points). All students then trained their classification skills with a visual learning resource that included images of two types of pigmented skin lesions: benign nevi and malignant melanomas. Both treatments produced significant and long-lasting effects on diagnostic accuracy in transfer tasks. However, only students in the combined procedural plus conceptual knowledge condition significantly improved their diagnostic performance in classifying lesions they had seen before in the pre- and post-tests. Findings suggest that the provision of additional conceptual knowledge supported error correction mechanisms.

Published
2024
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11. Piezoelectrically driven diamond phononic nanocavity by phonon-matching scheme for quantum applications

Author

Diego, Michele, Kim, Byunggi, Pirro, Matteo, Volz, Sebastian, and Nomura, Masahiro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Efficiently exciting and controlling phonons in diamond nanoresonators represents a fundamental challenge for quantum applications. Here, we theoretically demonstrate the possibility to excite mechanical modes within a double-hybrid-cavity (DHC), formed by adjoining to a diamond cavity a second cavity, made of aluminum nitride. The latter is piezoelectric and serves as a microwave-to-phonon transducer, activating mechanical modes in the entire DHC. We show the process to match the cavities phononic properties, making them work coordinately in the DHC and obtaining a well confined mode. In the diamond part of the cavity, this mode replicates the fundamental mode of the individual diamond cavity, showing that the piezoelectric transducer doesn't alter the diamond individual fundamental mode. In the piezoelectric part, the strong confinement of stress and electric field results in a high piezoelectric coupling rate, demonstrating the effectiveness of a phononic cavity as a transducer. The study is contextualized in the framework of a quantum networking application, where the DHC serves as a spin qubit, exploiting the spin-mechanical coupling within diamond color centers., Comment: 10 pages, 6 figures

Published
2024
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12. Upright to supine image registration and contour propagation for thoracic patients

Author

Martire, M. C., Volz, L., Galeone, C., Durante, M., Pankuch, M., and Graeff, C.

Subjects
Physics - Medical Physics
Abstract

A renewed interest in upright therapy is currently driven by the availability of upright positioning and imaging systems. Aside from reduced cost, upright positioning possibly provides clinical advantages. The comparison between upright and supine particle therapy treatments can be biased through multiple variables, such as differences in the target contouring on the two CTs. We present a method for upright and supine CT registration and structures propagation, and the investigation of an AI-based contouring tool for upright images. Six paired 4DCTs from Proton Therapy Collaboration Group registry were available from the Northwestern Medicine Proton Centre. Deformable image registration (DIR) is challenged by the different patient anatomy between postures, causing artefacts in the warped images. To achieve high quality contour propagation, we propose the construction of a region of interest covering the ribcage volume to overcome this problem. As no target contour ground truth was available, the registration quality analysis (QA) was performed on lung structures, for which dice score coefficient (DSC) and average Hausdorff distance (AHD) is reported. The TotalSegmentator tool, trained on supine dataset, was applied on upright images, verified against lung structures and used as additional comparison for contour propagation. The TotalSegmentator QA results in a maximum AHD of 2mm and a minimum DSC of 0.94. An average AHD of 1.5mm and 1.6mm, and an average DSC of 0.95 and 0.94 were obtained comparing the propagated volumes to manually contoured and AI structures, respectively. All AHD values are smaller than the CT slice distances. The developed framework allows for target propagation between upright and supine images, defining the first step to compare upright and supine therapy of thoracic patients and enabling the application of image fusion techniques in the upright therapy field.

Published
2024

13. Using oxides to compute with heat

Author

Nataf, Guillaume F., Volz, Sebastian, Ordonez-Miranda, Jose, Íñiguez-González, Jorge, Rurali, Riccardo, and Dkhil, Brahim

Subjects
Physics - Applied Physics, Computer Science - Emerging Technologies
Abstract

One of the most innovative possibilities offered by oxides is the use of heat currents for computational purposes. Towards this goal, phase-change oxides, including ferroelectrics, ferromagnets and related materials, could reproduce sources, logic units and memories used in current and future computing schemes.

Published
2024
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19. Generation of an azide-modified extracellular matrix by adipose-derived stem cells using metabolic glycoengineering

Author

Nellinger Svenja, Keller Silke, Southan Alexander, Wittmann Valentin, Volz Ann-Cathrin, and Kluger Petra J.

Subjects
adipose-derived stem cells, clickecm, extracellular matrix, metabolic glycoengineering, azidemodified, Medicine
Abstract

Natural extracellular matrix (ECM) represents an ideal biomaterial for tissue engineering and regenerative medicine approaches. For further functionalization, there is a need for specific addressable functional groups within this biomaterial. Metabolic glycoengineering (MGE) provides a technique to incorporate modified monosaccharide derivatives into the ECM during their assembly, which was shown by us earlier for the production of a modified fibroblast-derived dermal ECM. In this study, adipose-derived stem cells (ASCs) were treated with the azide-modified monosaccharide derivate 1,3,4,6-tetra-O-acetyl-N-azidoacetylgalactosamine (Ac4GalNAz). Toxicity and viability assays after 24 h and 72 h incubation revealed high biocompatibility of Ac4GalNAz in contact with ASCs. The successful incorporation of the functional azide groups into the glycocalyx and the ECM of the ASCs was proven by conjugation with a fluorescent dye via a copper-catalyzed click reaction. Thus, Ac4GalNAz in combination with ASCs was confirmed to achieve an azidemodified ECM as a multifunctional biomaterial for further applications.

Published
2019
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20. Not All the Same: Understanding and Informing Similarity Estimation in Tile-Based Video Games

Author

Berns, Sebastian, Volz, Vanessa, Tokarchuk, Laurissa, Snodgrass, Sam, and Guckelsberger, Christian

Subjects
Computer Science - Human-Computer Interaction
Abstract

Similarity estimation is essential for many game AI applications, from the procedural generation of distinct assets to automated exploration with game-playing agents. While similarity metrics often substitute human evaluation, their alignment with our judgement is unclear. Consequently, the result of their application can fail human expectations, leading to e.g. unappreciated content or unbelievable agent behaviour. We alleviate this gap through a multi-factorial study of two tile-based games in two representations, where participants (N=456) judged the similarity of level triplets. Based on this data, we construct domain-specific perceptual spaces, encoding similarity-relevant attributes. We compare 12 metrics to these spaces and evaluate their approximation quality through several quantitative lenses. Moreover, we conduct a qualitative labelling study to identify the features underlying the human similarity judgement in this popular genre. Our findings inform the selection of existing metrics and highlight requirements for the design of new similarity metrics benefiting game development and research., Comment: Proceedings of the CHI Conference on Human Factors in Computing Systems (CHI '24), 11-16 May 2024, Honolulu, HI, USA

Published
2024
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21. Excitons in epitaxially grown WS2 on Graphene: a nanometer-resolved EELS and DFT study

Author

Bergmann, Max, Belz, Jürgen, Maßmeyer, Oliver, Dogahe, Badrosadat Ojaghi, Günkel, Robin, Glowatzki, Johannes, Beyer, Andreas, Solovev, Ivan, Drawer, Jens-Christian, Esmann, Martin, Pasko, Sergej, Krotkus, Simonas, Heuken, Michael, Wippermann, Stefan, and Volz, Kerstin

Subjects
Condensed Matter - Materials Science
Abstract

In this study, we investigate excitonic properties of epitaxially grown WS2, which is of particular interest for various applications due to its potential for upscaling to wafer sized structures. Understanding the effect of the dielectric environment due to changing layer numbers and multi-material heterostructures on the optical properties is crucial for tailoring device properties. Monochromated electron energy loss spectroscopy in a scanning transmission electron microscope is employed to characterize the excitonic spectrum of WS2 on graphene grown by metal organic chemical vapor deposition. This technique provides the required spatial resolution at the nanometer scale in combination with high quality spectra. To complement the experimental results, theoretical investigations using density functional theory and applying the Bethe-Salpeter equations are conducted. We find that by transitioning from mono- to bi- to multilayers of WS2 the spectra show redshifts for both, the K-valley excitons at about 2.0 and 2.4 eV as well as excitonic features of higher energies. The latter features originate from so called band nesting of transitions between the Gamma- and K-point. In summary, this study provides valuable insights into the excitonic properties of WS2 in different layer configurations and environments, which are realistically needed for future device fabrication and property tuning. Finally, we can show that nanometer scale electron spectroscopy supported by careful theoretical modelling can successfully link atomic structure and optical properties, such as exciton shifts, in non-idealized complex material systems like multilayer 2D heterostructures., Comment: 8 pages, 5 figures

Published
2024

22. A Small Step for Epitaxy, a Large Step Towards Twist Angle Control in 2D Heterostructures

Author

Maßmeyer, Oliver, Belz, Jürgen, Dogahe, Badrosadat Ojaghi, Widemann, Maximilian, Günkel, Robin, Glowatzki, Johannes, Bergmann, Max, Pasko, Sergej, Krotkus, Simonas, Heuken, Michael, Beyer, Andreas, and Volz, Kerstin

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics, Physics - Data Analysis, Statistics and Probability
Abstract

Two-dimensional (2D) materials have received a lot of interest over the past decade. Especially van der Waals (vdW) 2D materials, such as transition metal dichalcogenides (TMDCs), and their heterostructures exhibit semiconducting properties that make them highly suitable for novel device applications. Controllable mixing and matching of the 2D materials with different properties and a precise control of the in-plane twist angle in these heterostructures are essential to achieve superior properties and need to be established through large-scale device fabrication. To gain fundamental insight into the control of these twist angles, 2D heterostructures of tungsten disulfide (WS2) and graphene grown by bottom-up synthesis via metal-organic chemical vapor deposition (MOCVD) are investigated using a scanning transmission electron microscope (STEM). Specifically, the combination of conventional high-resolution imaging with scanning nano beam diffraction (SNBD) using advanced 4D STEM techniques is used to analyze moir\'e structures. The latter technique is used to reveal the epitaxial alignment within the WS2/Gr heterostructure, showing a direct influence of the underlying graphene layers on the moir\'e formation in the subsequent WS2 layers. In particular, the importance of grain boundaries within the underlying WS2 and Gr layers for the formation of moir\'e patterns with rotation angles below 2{\deg} is discussed., Comment: 21 pages including the main article and supporting information, 5 figures (main text), 14 figures (supporting), submitted to Advanced Materials - Wiley

Published
2024

23. Assessing transmission attribution risk from simulated sequencing data in HIV molecular epidemiology

Author

Nascimento, Fabrícia F, Mehta, Sanjay R, Little, Susan J, and Volz, Erik M

Subjects
Health Sciences, Infectious Diseases, Genetics, HIV/AIDS, Sexually Transmitted Infections, 2.2 Factors relating to the physical environment, Infection, Generic health relevance, Male, Humans, Molecular Epidemiology, HIV Infections, Homosexuality, Male, Sexual and Gender Minorities, Probability, Phylogeny, consensus sequences, HIV, molecular epidemiology, next-generation sequencing, phylogenetics, source attribution, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Virology, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundHIV molecular epidemiology (ME) is the analysis of sequence data together with individual-level clinical, demographic, and behavioral data to understand HIV epidemiology. The use of ME has raised concerns regarding identification of the putative source in direct transmission events. This could result in harm ranging from stigma to criminal prosecution in some jurisdictions. Here we assessed the risks of ME using simulated HIV genetic sequencing data.MethodsWe simulated social networks of men-who-have-sex-with-men, calibrating the simulations to data from San Diego. We used these networks to simulate consensus and next-generation sequence (NGS) data to evaluate the risks of identifying direct transmissions using different HIV sequence lengths, and population sampling depths. To identify the source of transmissions, we calculated infector probability and used phyloscanner software for the analysis of consensus and NGS data, respectively.ResultsConsensus sequence analyses showed that the risk of correctly inferring the source (direct transmission) within identified transmission pairs was very small and independent of sampling depth. Alternatively, NGS analyses showed that identification of the source of a transmission was very accurate, but only for 6.5% of inferred pairs. False positive transmissions were also observed, where one or more unobserved intermediaries were present when compared to the true network.ConclusionSource attribution using consensus sequences rarely infers direct transmission pairs with high confidence but is still useful for population studies. In contrast, source attribution using NGS data was much more accurate in identifying direct transmission pairs, but for only a small percentage of transmission pairs analyzed.

Published
2024

25. An updated framework for SARS-CoV-2 variants reflects the unpredictability of viral evolution

Author

Subissi, Lorenzo, Otieno, James Richard, Worp, Nathalie, Attar Cohen, Homa, Oude Munnink, Bas B., Abu-Raddad, Laith J., Alm, Erik, Barakat, Amal, Barclay, Wendy S., Bhiman, Jinal N., Caly, Leon, Chand, Meera, Chen, Mark, Cullinane, Ann, de Oliveira, Tulio, Drosten, Christian, Druce, Julian, Effler, Paul, El Masry, Ihab, Faye, Adama, Ghedin, Elodie, Grant, Rebecca, Haagmans, Bart L., Happi, Christian, Herring, Belinda L., Hodcroft, Emma B., Ikejezie, Juniorcaius, Katawera, Victoria, Kassamali, Zyleen Alnashir, Leo, Yee-Sin, Leung, Gabriel M., Kondor, Rebecca J., Marklewitz, Marco, Mendez-Rico, Jairo, Melhem, Nada M., Munster, Vincent, Nahapetyan, Karen, Naindoo, Dhamari, Oh, Djin-Ye, Peacock, Thomas P., Peiris, Malik, Peng, Zhibin, Poon, Leo L. M., Rambaut, Andrew, Saha, Senjuti, Shen, Yinzhong, Siqueira, Marilda M., Volz, Erik, Tessema, Sofonias K., Thiel, Volker, Triki, Henda, van der Werf, Sylvie, von Eije, Karin, Cunningham, Jane, Koopmans, Marion P. G., von Gottberg, Anne, Agrawal, Anurag, and Van Kerkhove, Maria D.

Published
2024
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31. Degrees-of-freedom penalized piecewise regression

Author

Volz, Stefan, Storath, Martin, and Weinmann, Andreas

Subjects
Statistics - Methodology, Mathematics - Numerical Analysis, 65K05 (Primary) 90C26 (Secondary) 62G05, G.1.2, G.1.6
Abstract

Many popular piecewise regression models rely on minimizing a cost function on the model fit with a linear penalty on the number of segments. However, this penalty does not take into account varying complexities of the model functions on the segments potentially leading to overfitting when models with varying complexities, such as polynomials of different degrees, are used. In this work, we enhance on this approach by instead using a penalty on the sum of the degrees of freedom over all segments, called degrees-of-freedom penalized piecewise regression (DofPPR). We show that the solutions of the resulting minimization problem are unique for almost all input data in a least squares setting. We develop a fast algorithm which does not only compute a minimizer but also determines an optimal hyperparameter -- in the sense of rolling cross validation with the one standard error rule -- exactly. This eliminates manual hyperparameter selection. Our method supports optional user parameters for incorporating domain knowledge. We provide an open-source Python/Rust code for the piecewise polynomial least squares case which can be extended to further models. We demonstrate the practical utility through a simulation study and by applications to real data. A constrained variant of the proposed method gives state-of-the-art results in the Turing benchmark for unsupervised changepoint detection., Comment: 35 pages, 11 figures, submitted to "Information and Inference: a Journal of the IMA"

Published
2023

32. Tunable High Spin Chern-Number Insulator Phases in Strained Sb Monolayer

Author

Cook, Jacob, Yang, Po-Yuan, Volz, Theo, Conner, Clayton, Satterfield, Riley, Berglund, Joseph, Lu, Qiangsheng, Moore, Rob G., Yao, Yueh-Ting, Chang, Tay-Rong, and Bian, Guang

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

High spin Chern-number insulators (HSCI) have emerged as a novel 2D topological phase of condensed matter that is beyond the classification of topological quantum chemistry. In this work, we report the observation of a semimetallic Sb monolayer carrying the same band topology as HSCI with a spin Chern number equal to 2. Our calculations further indicate a moderate lattice strain can make Sb monolayer an insulator or a semimetal with a tunable spin Chern number from 0 to 3. The results suggest strained Sb monolayers as a promising platform for exploring exotic properties of the HSCI topological matter., Comment: 4 figures

Published
2023

33. Coupling nitrogen-vacancy centre spins in diamond to a grape dimer

Author

Fawaz, Ali, Nair, Sarath Raman, and Volz, Thomas

Subjects
Quantum Physics
Abstract

Two grapes irradiated inside a microwave (MW) oven typically produce a series of sparks and can ignite a violent plasma. The underlying cause of the plasma has been attributed to the formation of morphological-dependent resonances (MDRs) in the aqueous dielectric dimers that lead to the generation of a strong evanescent MW hotspot between them. Previous experiments have focused on the electric-field component of the field as the driving force behind the plasma ignition. Here we couple an ensemble of nitrogen-vacancy (NV) spins in nanodiamonds (NDs) to the magnetic-field component of the dimer MW field. We demonstrate the efficient coupling of the NV spins to the MW magnetic-field hotspot formed between the grape dimers using Optically Detected Magnetic Resonance (ODMR). The ODMR measurements are performed by coupling NV spins in NDs to the evanescent MW fields of a copper wire. When placing a pair of grapes around the NDs and matching the ND position with the expected magnetic-field hotspot, we see an enhancement in the ODMR contrast by more than a factor of two compared to the measurements without grapes. Using finite-element modelling, we attribute our experimental observation of the field enhancement to the MW hotspot formation between the grape dimers. The present study not only validates previous work on understanding grape-dimer resonator geometries, but it also opens up a new avenue for exploring novel MW resonator designs for quantum technologies.

Published
2023

41. MVA-based vaccine candidates encoding the native or prefusion-stabilized SARS-CoV-2 spike reveal differential immunogenicity in humans

Author

Mayer, Leonie, Weskamm, Leonie M., Fathi, Anahita, Kono, Maya, Heidepriem, Jasmin, Krähling, Verena, Mellinghoff, Sibylle C., Ly, My Linh, Friedrich, Monika, Hardtke, Svenja, Borregaard, Saskia, Hesterkamp, Thomas, Loeffler, Felix F., Volz, Asisa, Sutter, Gerd, Becker, Stephan, Dahlke, Christine, and Addo, Marylyn M.

Published
2024
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44. Changing the Odds: Student Achievement after Introduction of a Middle School Math Intervention

Author

Julian R. Betts, Andrew C. Zau, Karen Volz Bachofer, and Dina Polichar

Abstract

The paper evaluates math performance at four high-need middle schools during a four-year intervention, which was designed to help math teachers diagnose students' areas of need and to design lesson plans responsive to those needs. Before the intervention began, the researchers pre-selected four comparison schools by matching based on achievement and also on demographics. A difference-in-difference analysis finds a significant increase of about 0.11 standard deviation in test scores per year for students in the program schools. Supplementary event study and synthetic control analyses to detect year-by-year effects lack precision but are weakly suggestive of a smaller impact in year 1 than later years. A cost analysis considers the affordability of extending similar programs.

Published
2024
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45. Inert shell coating for enhanced laser refrigeration of nanoparticles: application in levitated optomechanics

Author

Laplane, Cyril, Ren, Peng, Roberts, Reece P., Lu, Yiqing, and Volz, Thomas

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

We report on a study exploring the design of nanoparticles that can enhance their laser refrigeration efficiency for applications in levitated optomechanics. In particular, we developed lanthanide-doped nanocrystals with an inert shell coating and compared their performance with bare nanocrystals. While optically levitated, we studied the refrigeration of both types of nanoparticles while varying the pressure. We found that the core-shell design shows an improvement in the minimum final temperature: a fourth of the core-shell nanoparticles showed a significant cooling compared to almost none of the bare nanoparticles. Furthermore, we measured a core-shell nanoparticle cooling down to a temperature of 147 K at 26 mbar in the underdamped regime. Our study is a first step towards engineering nanoparticles that are suitable for achieving absolute (centre-of-mass and internal temperature) cooling in levitation, opening new avenues for force sensing and the realization of macroscopic quantum superpositions., Comment: Any comments are welcome !

Published
2023

46. Triphenyl phosphate-induced pericardial edema in zebrafish embryos is reversible following depuration in clean water.

Author

Wiegand, Jenna, Hoang, John, Avila-Barnard, Sarah, Nemarugommula, Charvita, Ha, Megan, Zhang, Sharon, Stapleton, Heather, and Volz, David

Subjects
Epidermis, Osmoregulation, Pericardial edema, Triphenyl phosphate, Zebrafish, Animals, Zebrafish, Prolactin, Embryo, Nonmammalian, Water Pollutants, Chemical, Organophosphates, Edema
Abstract

Triphenyl phosphate (TPHP) - a widely used organophosphate-based flame retardant - blocks cardiac looping during zebrafish development in a concentration-dependent manner, a phenotype that is dependent on disruption of embryonic osmoregulation and pericardial edema formation. However, its currently unclear whether (1) TPHP-induced effects on osmoregulation are driven by direct TPHP-induced injury to the embryonic epidermis and (2) whether TPHP-induced pericardial edema is reversible or irreversible following cessation of exposure. Therefore, the objectives of this study were to determine whether TPHP-induced pericardial edema is reversible and whether TPHP causes injury to the embryonic epidermis by quantifying the number of DAPI-positive epidermal cells and analyzing the morphology of the yolk sac epithelium using scanning electron microscopy. First, we found that exposure to 5 μM TPHP from 24-72 h post-fertilization (hpf) did not increase prolactin - a hormone that regulates ions and water levels - in embryonic zebrafish, whereas high ionic strength exposure media was associated with elevated levels of prolactin. Second, we found that exposure to 5 μM TPHP from 24-72 hpf did not decrease DAPI-positive epidermal cells within the embryonic epithelium, and that co-exposure with 2.14 μM fenretinide - a synthetic retinoid that promotes epithelial wound repair - from 24-72 hpf did not mitigate the prevalence of TPHP-induced epidermal folds within the yolk sac epithelium when embryos were exposed within high ionic strength exposure media. Finally, we found that the pericardial area and body length of embryos exposed to 5 μM TPHP from 24-72 hpf were similar to vehicle-treated embryos at 120 hpf following transfer to clean water and depuration of TPHP from 72-120 hpf. Overall, our findings suggest that (1) the ionic strength of exposure media may influence the baseline physiology of zebrafish embryos; (2) TPHP does not cause direct injury to the embryonic epidermis; and (3) TPHP-induced effects on pericardial area and body length are reversible 48 h after transferring embryos to clean water.

Published
2023

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