Your search keyword '"Fischer, Mark"' showing total 22 results

1. Correlated order at the tipping point in the kagome metal CsV3Sb5

Author

Guo, Chunyu, Wagner, Glenn, Putzke, Carsten, Chen, Dong, Wang, Kaize, Zhang, Ling, Gutierrez-Amigo, Martin, Errea, Ion, Vergniory, Maia G., Felser, Claudia, Fischer, Mark H., Neupert, Titus, and Moll, Philip J. W.

Published

2024

2. Weak signal extraction enabled by deep neural network denoising of diffraction data

Author

Oppliger, Jens, Denner, M. Michael, Küspert, Julia, Frison, Ruggero, Wang, Qisi, Morawietz, Alexander, Ivashko, Oleh, Dippel, Ann-Christin, Zimmermann, Martin von, Biało, Izabela, Martinelli, Leonardo, Fauqué, Benoît, Choi, Jaewon, Garcia-Fernandez, Mirian, Zhou, Ke-Jin, Christensen, Niels Bech, Kurosawa, Tohru, Momono, Naoki, Oda, Migaku, Natterer, Fabian D., Fischer, Mark H., Neupert, Titus, and Chang, Johan

Published

2024

3. Final 1-Year Results of the TUTOR Randomized Trial Comparing Carpal Tunnel Release with Ultrasound Guidance to Mini-open Technique

Author

Eberlin, Kyle R., Amis, Benjamin P., Berkbigler, Thomas P., Dy, Christopher J., Fischer, Mark D., Gluck, James L., Kaplan, F. Thomas D., McDonald, Thomas J., Miller, Larry E., Palmer, Alexander, Perry, Paul E., Walker, Marc E., and Watt, James F.

Published

2024

4. Ascus function: From squirt guns to ooze tubes

Author

Money, Nicholas P., Stolze-Rybczynski, Jessica, Smith, B. Eugene, Trninić, Dragana, Davis, Diana J., and Fischer, Mark W.F.

Published

2023

5. What Is the Weight of a Single Amoeba and Why Does It Matter?

Author

Money, Nicholas P. and Fischer, Mark W. F.

Abstract

Cell size is an important variable in the study of cellular growth, metabolism, and the cell cycle. The large size of "Amoeba proteus" and the ease with which it can be collected and cultured have made it a star in biology education--and it was a model for research on cell biology before the introduction of molecular genetic methods. Measuring the cytoplasmic density of a single amoeba without modern instrumentation seems like a difficult task, but this was done with supreme accuracy in the 1940s. The solution was based on the familiar Cartesian diver that is used to demonstrate Archimedes's principle. It required the fabrication of a tiny diver that would respond to the additional mass of a cell. Experiments using this method allowed investigators to study changes in size and density associated with feeding, starvation, and cell division. This research is an illustration of the ingenuity of cell biologists in the pre-molecular genetic era of their field, which is often overlooked by contemporary scientists. The consideration of the mass, density, and buoyancy of free-living amoebas encourages a new hypothesis about the evolution of testate amoebas.

Published

2021

6. Switchable chiral transport in charge-ordered kagome metal CsV3Sb5

Author

Guo, Chunyu, Putzke, Carsten, Konyzheva, Sofia, Huang, Xiangwei, Gutierrez-Amigo, Martin, Errea, Ion, Chen, Dong, Vergniory, Maia G., Felser, Claudia, Fischer, Mark H., Neupert, Titus, and Moll, Philip J. W.

Published

2022

7. Mechanics of the artillery fungus

Author

Money, Nicholas P., Stolze, Jessica, and Fischer, Mark W.F.

Published

2023

8. Trial of ultrasound guided carpal tunnel release versus traditional open release (TUTOR)

Author

Eberlin, Kyle R., Dy, Christopher J., Fischer, Mark D., Gluck, James L., Kaplan, F. Thomas D., McDonald, Thomas J., Miller, Larry E., Palmer, Alexander, Walker, Marc E., and Watt, James F.

Published

2022

9. Exceptional topological insulators

Author

Denner, M. Michael, Skurativska, Anastasiia, Schindler, Frank, Fischer, Mark H., Thomale, Ronny, Bzdušek, Tomáš, and Neupert, Titus

Published

2021

10. Magnetotransport of dirty-limit van Hove singularity quasiparticles

Author

Xu, Yang, Herman, František, Granata, Veronica, Destraz, Daniel, Das, Lakshmi, Vonka, Jakub, Gerber, Simon, Spring, Jonathan, Gibert, Marta, Schilling, Andreas, Zhang, Xiaofu, Li, Shiyan, Fittipaldi, Rosalba, Fischer, Mark H., Vecchione, Antonio, and Chang, Johan

Published

2021

11. Distinct switching of chiral transport in the kagome metals KV3Sb5 and CsV3Sb5.

Author

Guo, Chunyu, van Delft, Maarten R., Gutierrez-Amigo, Martin, Chen, Dong, Putzke, Carsten, Wagner, Glenn, Fischer, Mark H., Neupert, Titus, Errea, Ion, Vergniory, Maia G., Wiedmann, Steffen, Felser, Claudia, and Moll, Philip J. W.

Subjects

ELECTRONIC structure, METALS, ELECTRONIC evidence, ALKALI metals, SUPERCONDUCTIVITY, CHIRALITY

Abstract

The kagome metals AV3Sb5 (A = K, Rb, Cs) present an ideal sandbox to study the interrelation between multiple coexisting correlated phases such as charge order and superconductivity. So far, no consensus on the microscopic nature of these states has been reached as the proposals struggle to explain all their exotic physical properties. Among these, field-switchable electric magneto-chiral anisotropy (eMChA) in CsV3Sb5 provides intriguing evidence for a rewindable electronic chirality, yet the other family members have not been likewise investigated. Here, we present a comparative study of magneto-chiral transport between CsV3Sb5 and KV3Sb5. Despite their similar electronic structure, KV3Sb5 displays negligible eMChA, if any, and with no field switchability. This is in stark contrast to the non-saturating eMChA in CsV3Sb5 even in high fields up to 35 T. In light of their similar band structures, the stark difference in eMChA suggests its origin in the correlated states. Clearly, the V kagome nets alone are not sufficient to describe the physics and the interactions with their environment are crucial in determining the nature of their low-temperature state. [ABSTRACT FROM AUTHOR]

Published

2024

12. Multicenter randomized trial of carpal tunnel release with ultrasound guidance versus mini-open technique.

Author

Eberlin, Kyle R., Amis, Benjamin P., Berkbigler, Thomas P., Dy, Christopher J., Fischer, Mark D., Gluck, James L., Kaplan, F. Thomas D., McDonald, Thomas J., Miller, Larry E., Palmer, Alexander, Perry, Paul E., Walker, Marc E., and Watt, James F.

Subjects

ULTRASONIC imaging, SURGEONS, CARPAL tunnel syndrome

Abstract

Comparative studies of carpal tunnel release with ultrasound guidance (CTR-US) vs. mini-open CTR (mOCTR) are limited, prompting development of this randomized trial to compare efficacy and safety of these techniques. Patients were randomized (2:1) to CTR-US or mOCTR, treated by experienced hand surgeons (median previous cases: 12 CTR-US; 1000 mOCTR), and followed for 3 months. Among 149 randomized patients, 122 received CTR-US (n = 94) or mOCTR (n = 28). Mean incision length was 6 ± 2 mm in the wrist (CTR-US) vs. 22 ± 7 mm in the palm (mOCTR) (p < 0.001). Median time to return to daily activities (2 vs. 2 days; p = 0.81) and work (3 vs. 4 days; p = 0.61) were similar. Both groups reported statistically significant and clinically important improvements in Boston Carpal Tunnel Questionnaire Symptom Severity and Functional Status Scales, Numeric Pain Scale, and EuroQoL-5 Dimension 5-Level, with no statistical differences between groups. Freedom from wound sensitivity and pain favored CTR-US (61.1% vs. 17.9%; p < 0.001). Adverse event rates were low in each group (2.1% vs. 3.6%; p = 0.55). The efficacy and safety of CTR-US were comparable to mOCTR despite less previous surgical experience with CTR-US. The choice of CTR technique should be determined by shared decision-making between patient and physician. identifier is NCT05405218. [ABSTRACT FROM AUTHOR]

Published

2023

13. Superconductivity and Local Inversion-Symmetry Breaking.

Author

Fischer, Mark H., Sigrist, Manfred, Agterberg, Daniel F., and Yanase, Youichi

Published

2023

14. Switchable chiral transport in charge-ordered kagome metal CsV3Sb5.

Author

Guo, Chunyu, Putzke, Carsten, Konyzheva, Sofia, Huang, Xiangwei, Gutierrez-Amigo, Martin, Errea, Ion, Chen, Dong, Vergniory, Maia G., Felser, Claudia, Fischer, Mark H., Neupert, Titus, and Moll, Philip J. W.

Abstract

When electric conductors differ from their mirror image, unusual chiral transport coefficients appear that are forbidden in achiral metals, such as a non-linear electric response known as electronic magnetochiral anisotropy (eMChA)1–6. Although chiral transport signatures are allowed by symmetry in many conductors without a centre of inversion, they reach appreciable levels only in rare cases in which an exceptionally strong chiral coupling to the itinerant electrons is present. So far, observations of chiral transport have been limited to materials in which the atomic positions strongly break mirror symmetries. Here, we report chiral transport in the centrosymmetric layered kagome metal CsV3Sb5 observed via second-harmonic generation under an in-plane magnetic field. The eMChA signal becomes significant only at temperatures below T ′ ≈ 35 K, deep within the charge-ordered state of CsV3Sb5 (TCDW ≈ 94 K). This temperature dependence reveals a direct correspondence between electronic chirality, unidirectional charge order7 and spontaneous time-reversal symmetry breaking due to putative orbital loop currents8–10. We show that the chirality is set by the out-of-plane field component and that a transition from left- to right-handed transport can be induced by changing the field sign. CsV3Sb5 is the first material in which strong chiral transport can be controlled and switched by small magnetic field changes, in stark contrast to structurally chiral materials, which is a prerequisite for applications in chiral electronics.Change of chirality from left- to right-handed transport in the layered kagome metal CsV3Sb5 can be controlled by small magnetic field changes, a required feature for chiral electronic applications. [ABSTRACT FROM AUTHOR]

Published

2022

15. A two‐stage, fault‐controlled paleofluid system at the southern termination of the Gypsum Valley salt wall, Paradox Basin, Colorado, USA.

Author

Lueck, Lillian R., Fischer, Mark P., Williams, Nicholas J., Drost, Kerstin, Dodd, Justin P., and Chew, David M.

Subjects

*URANIUM-lead dating, *GYPSUM, *CALCITE analysis, *SALT tectonics, *ISOTOPIC analysis, *CALCITE, *DIAPIRS

Abstract

This study combines field structural analysis with thin‐section petrography, U‐Pb dating, and strontium, carbon and oxygen isotopic analysis of calcite fracture fills to constrain the evolution of the 2‐5 km scale paleofluid system around the faulted, plunging fold nose comprising the southern termination of the Gypsum Valley salt wall in the Paradox Basin, U.S.A. Brittle deformation in this region began with the formation of a down‐to‐the‐northeast, counter‐regional fault and then progressed into jointing and faulting in a radial pattern, followed by jointing in a concentric pattern. Coupled with increases in fracture abundance toward the faults, multiple stages of mineralization suggest that the faults served as efficient and long‐lived conduits for vertical fluid migration. Although fracture cement textures and calcite colour are variable throughout the area, the distribution of these characteristics does not correlate with fracture orientation, relative age, stratigraphic or structural position. Irrespective of the type of calcite comprising the fracture cements, δ13C values average near −7‰ (VPDB), whereas δ18O values cluster into groups whose averages are roughly 6‰ apart, with the more negative grouping stratigraphically restricted to fracture cements in Jurassic rocks. The stratigraphic segregation of δ18O values suggests the paleofluid system contained two distinct paleofluids, a more recent one comprised of meteoric waters and an older one comprising brine that originated in Pennsylvanian strata. 87Sr/86Sr ratios in fracture‐filling calcite cements indicate that the older fluid underwent fluid‐rock interaction with Permian strata and that this evolved fluid migrated upwards along the faults until the Triassic or Jurassic. Thereafter, fluid migrating along the faults was more meteoric and appears to have migrated downward along the faults, where it interacted with Permian strata. Consistent U‐Pb dates from carbonates precipitated from the older fluid suggest this stage of the paleofluid system was active around 240 Ma. Local burial history models and published temperatures for fracture cements elsewhere in the basin suggest the younger stage of the paleofluid system occurred during the Latest Cretaceous to Oligocene. This study highlights the spatial and temporal complexity of fluid systems in the vicinity of salt structures and emphasises the need to interpret them through careful integration of high resolution stratigraphic and structural data in the context of evolving salt tectonics. [ABSTRACT FROM AUTHOR]

Published

2022

16. What Is the Weight of a Single Amoeba and Why Does It Matter?

Author

Money, Nicholas P. and Fischer, Mark W. F.

Subjects

*ARCHIMEDES' principle, *AMOEBA, *CELL size, *CELL growth, *STARVATION, *CYTOLOGY

Abstract

Cell size is an important variable in the study of cellular growth, metabolism, and the cell cycle. The large size of Amoeba proteus and the ease with which it can be collected and cultured have made it a star in biology education—and it was a model for research on cell biology before the introduction of molecular genetic methods. Measuring the cytoplasmic density of a single amoeba without modern instrumentation seems like a difficult task, but this was done with supreme accuracy in the 1940s. The solution was based on the familiar Cartesian diver that is used to demonstrate Archimedes's principle. It required the fabrication of a tiny diver that would respond to the additional mass of a cell. Experiments using this method allowed investigators to study changes in size and density associated with feeding, starvation, and cell division. This research is an illustration of the ingenuity of cell biologists in the pre-molecular genetic era of their field, which is often overlooked by contemporary scientists. The consideration of the mass, density, and buoyancy of free-living amoebas encourages a new hypothesis about the evolution of testate amoebas. [ABSTRACT FROM AUTHOR]

Published

2021

17. Direct evidence for Cooper pairing without a spectral gap in a disordered superconductor above Tc.

Author

Bastiaans, Koen M., Chatzopoulos, Damianos, Ge, Jian-Feng, Cho, Doohee, Tromp, Willem O., van Ruitenbeek, Jan M., Fischer, Mark H., de Visser, Pieter J., Thoen, David J., Driessen, Eduard F. C., Klapwijk, Teunis M., and Allan, Milan P.

Published

2021

18. The transition from salt diapir to weld and thrust: Examples from the Northern Flinders Ranges in South Australia.

Author

Vidal‐Royo, Oskar, Rowan, Mark G., Ferrer, Oriol, Fischer, Mark P., Fiduk, J. Carl, Canova, David P., Hearon, Thomas E., and Giles, Katherine A.

Subjects

DIAPIRS, THRUST, WELDED joints, SALT domes, WELDING, GEOLOGICAL mapping

Abstract

The interactions between salt diapirs, thrust welds and thrusts in contractional belts are poorly understood due to, first, the inability of seismic data to distinguish between thrusts and welds or resolve associated sub‐resolution deformation, and second, the paucity of good field examples. The Warraweena area in the Northern Flinders Ranges of South Australia contains examples of Neoproterozoic to Early Cambrian squeezed diapirs linked by steep reverse faults formed during the Delamerian Orogeny. Benefiting from good field exposures, we use geological mapping, cross‐section construction and conceptual structural models to assess the three‐dimensional geometry and evolution of the structures, the lateral transition from diapirs to linking faults and the variability of associated meso‐ and small‐scale deformation. Three discrete diapirs consist of narrow outcrops of Callanna Group megabreccia (Willouran in age) up to 5‐km long. Their diapiric origin is confirmed by local development of caprock, steepening of flanking strata in composite halokinetic sequences and reworked diapir and roof debris in adjacent strata. The surrounding rocks display only background levels of small‐scale deformation. In contrast, the linking faults show no evidence of precursor diapirism, have fault‐related anticlines up to 100s of m in wavelength in their hanging walls, and an associated increase in small‐scale deformation (i.e. millimetre to metre scale folds, fractures and shear fabrics). The transitions from diapirs to faults occur within less than 200 m as short thrust welds at the diapir terminations. The exposed structures are analogous to those found on the subsurface of other salt basins such as the Gulf of Mexico and the South Atlantic conjugate margins. The results of this work can aid geoscientists evaluating three‐way traps against squeezed diapirs, welds or faults, and can help them to predict the style and abundance of both halokinetic and small‐scale structures that are below seismic resolution. [ABSTRACT FROM AUTHOR]

Published

2021

19. Effect of Myopic Defocus on Baseball Batting Performance.

Author

Reuscher, Nelly, Bulson, Ryan, Kempgens, Christian, Fischer, Mark, and Hayes, John

Subjects

*BASEBALL, *MYOPIA, *ATHLETES, *SEX distribution, *VISUAL acuity, *VISUAL perception, *DESCRIPTIVE statistics, *ATHLETIC ability, *REFRACTIVE errors

Abstract

Background: Numerous studies have investigated the importance of visual clarity in simulated athletic performance and, surprisingly, have observed that several sports-related tasks are resilient to low-tomoderate levels of retinal defocus. The purpose of this study was to determine the effect of myopic defocus on baseball batting performance, as well as the influence of gender, preferred hand, refractive error, and previous baseball experience. Methods: Thirty visually normal (visual acuity at least 20/20, stereoacuity better than 50 arc seconds of stereoacuity) young-adult participants were pitched 20 baseballs from a pitching machine under four conditions in a randomized order: plano (control), +1.00 D, +2.00 D, and +3.00 D. All participants were tested under binocular viewing conditions, with their habitual distance correction in place. Two independent observers graded the batting performance via a quality-of-contact score. Results: Batting performance was significantly reduced under +2.00 D and +3.00 D conditions, but not under the +1.00 D condition. The overall effect of retinal defocus was significant (F = 9.137, p < 0.001). Previous baseball experience yielded a statistically significant difference in performance, but neither refractive error, hand, order, nor gender significantly influenced performance. A high linear correlation between both observers was found (R2 = 0.99). Conclusion: This study demonstrated that baseball batting performance was resilient to low levels of retinal defocus for amateur baseball players. The threshold level of myopic defocus where performance declined appears to be lower for baseball than for other simulated sportsrelated activities in the literature, including golf putting, cricket batting, and basketball free throws, suggesting that the influence of myopic defocus on athletic performance is likely task-dependent. [ABSTRACT FROM AUTHOR]

Published

2021

20. Nature of Unconventional Pairing in the Kagome Superconductors AV3Sb5 (A=K,Rb,Cs).

Author

Xianxin Wu, Schwemmer, Tilman, Müller, Tobias, Consiglio, Armando, Sangiovanni, Giorgio, Di Sante, Domenico, Iqbal, Yasir, Hanke, Werner, Schnyder, Andreas P., Denner, M. Michael, Fischer, Mark H., Neupert, Titus, and Thomale, Ronny

Subjects

*SUPERCONDUCTORS, *FERMI surfaces, *ALKALI metals, *SUPERCONDUCTIVITY, *FERMI level, *SURFACE states

Abstract

The recent discovery of AV3Sb5 (A=K,Rb,Cs) has uncovered an intriguing arena for exotic Fermi surface instabilities in a kagome metal. Among them, superconductivity is found in the vicinity of multiple van Hove singularities, exhibiting indications of unconventional pairing. We show that the sublattice interference mechanism is central to understanding the formation of superconductivity in a kagome metal. Starting from an appropriately chosen minimal tight-binding model with multiple van Hove singularities close to the Fermi level for AV3Sb5, we provide a random phase approximation analysis of superconducting instabilities. Nonlocal Coulomb repulsion, the sublattice profile of the van Hove bands, and the interaction strength turn out to be the crucial parameters to determine the preferred pairing symmetry. Implications for potentially topological surface states are discussed, along with a proposal for additional measurements to pin down the nature of superconductivity in AV3Sb5. [ABSTRACT FROM AUTHOR]

Published

2021

21. The observation of π-shifts in the Little-Parks effect in 4Hb-TaS 2 .

Author

Almoalem A, Feldman I, Mangel I, Shlafman M, Yaish YE, Fischer MH, Moshe M, Ruhman J, and Kanigel A

Abstract

Finding evidence of non-trivial pairing states is one of the greatest experimental challenges in the field of unconventional superconductivity. Such evidence requires phase-sensitive probes susceptible to the internal structure of the order parameter. We report the measurement of the Little-Parks effect in the unconventional superconductor candidate 4Hb-TaS 2 . In half of our rings, which are fabricated from single-crystals, we find a π-shift in the transition-temperature oscillations. According to theory, such a π-shift is only possible if the order parameter is non-s-wave. In the absence of crystallographic defects, the shift provides evidence of a multi-component order parameter. Thus, this observation increases the likelihood of the two-component order parameter scenario in 4Hb-TaS 2 . Furthermore, we show that T c is enhanced as a function of the out-of-plane field when a constant in-plane field is applied, which we explain using a two-component order-parameter., (© 2024. The Author(s).)

Published

2024

22. Nature of Unconventional Pairing in the Kagome Superconductors AV&#95;{3}Sb&#95;{5} (A=K,Rb,Cs).

Author

Wu X, Schwemmer T, Müller T, Consiglio A, Sangiovanni G, Di Sante D, Iqbal Y, Hanke W, Schnyder AP, Denner MM, Fischer MH, Neupert T, and Thomale R

Abstract

The recent discovery of AV&#95;{3}Sb&#95;{5} (A=K,Rb,Cs) has uncovered an intriguing arena for exotic Fermi surface instabilities in a kagome metal. Among them, superconductivity is found in the vicinity of multiple van Hove singularities, exhibiting indications of unconventional pairing. We show that the sublattice interference mechanism is central to understanding the formation of superconductivity in a kagome metal. Starting from an appropriately chosen minimal tight-binding model with multiple van Hove singularities close to the Fermi level for AV&#95;{3}Sb&#95;{5}, we provide a random phase approximation analysis of superconducting instabilities. Nonlocal Coulomb repulsion, the sublattice profile of the van Hove bands, and the interaction strength turn out to be the crucial parameters to determine the preferred pairing symmetry. Implications for potentially topological surface states are discussed, along with a proposal for additional measurements to pin down the nature of superconductivity in AV&#95;{3}Sb&#95;{5}.

Published

2021