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1. Mixed polytype/polymorph formation and its effects on the electronic properties in InSe films grown by molecular beam epitaxy on GaAs(111)B

Author

Hilse, Maria, Rodriguez, Justin, Gray, Jennifer, Yao, Jinyuan, Ding, Shaoqing, Liu, Derrick Shao Heng, Li, Mo, Young, Joshua, Liu, Ying, and Engel-Herbert, Roman

Subjects
Condensed Matter - Materials Science
Abstract

The top-down synthesis of inherently ferroelectric semiconductors and their integration with traditional material platforms have the potential to enable new low power logic devices, and to harness the bulk photoelectric effect for more efficient photovoltaic cells. InSe is a layered van der Waals compound exhibiting multiple polytypes, with semiconducting gamma-InSe revealing a non-centrosymmetric space group and showing a high carrier mobility at room temperature. Here we report the growth of InSe films on close to lattice matched semi-insulating GaAs(111)B substrates by molecular beam epitaxy (MBE). Excellent nucleation behavior resulted in the growth of smooth, single phase InSe films. The dominant polytype determined from X-ray diffraction was the targeted gamma-InSe, however Raman spectroscopy revealed spatial variations in the overall low-intensity non-centrosymmetric vibration modes. Transmission electron microscopy uncovered the presence of the three bulk polytypes beta, gamma, and epsilon-InSe coexisting in the films arranging in nanosized domains. The different polytypes can be interpreted as sequences of stacking faults and rotational twin boundaries of gamma-InSe made from individual non-centrosymmetric Se-In-In-Se layers with P-6m2 symmetry. A second, centrosymmetric Se-In-In-Se layer polymorph was identified with P-3m symmetry, which is typically not present in InSe bulk phases. First principles calculations revealed small formation energy differences between the InSe polymorphs and polytypes, yet sizeable differences in their electronic properties. Nanoscale domain sizes of varying polytypes thus resulted in sizeable electronic disorder in the grown films that dominated the electronic transport properties. Our results indicate that bottom-up thin film synthesis is a viable synthesis route towards stabilization of InSe polytypes not present in the bulk.

Published
2024

13. Accurate and Efficient Modeling of the Transverse Mode Instability in High Energy Laser Amplifiers

Author

Menyuk, Curtis R., Young, Joshua T., Hu, Jonathan, Goers, Andy J., Brown, David M., and Dennis, Michael L.

Subjects
Physics - Optics
Abstract

We study the transverse mode instability (TMI) in the limit where a single higher-order mode (HOM) is present. We demonstrate that when the beat length between the fundamental mode and the HOM is small compared to the length scales on which the pump amplitude and the optical mode amplitudes vary, TMI is a three-wave mixing process in which the two optical modes beat with the phase-matched component of the index of refraction that is induced by the thermal grating. This limit is the usual limit in applications, and in this limit TMI is identified as a stimulated thermal Rayleigh scattering (STRS) process. We demonstrate that a phase-matched model that is based on the three-wave mixing equations can have a large computational advantage over current coupled mode methods that must use longitudinal step sizes that are small compared to the beat length.

Published
2021

15. Author Correction: Mapping the genomic landscape of CRISPR–Cas9 cleavage

Author

Cameron, Peter, Fuller, Chris K., Donohoue, Paul D., Jones, Brittnee N., Thompson, Matthew S., Carter, Matthew M., Gradia, Scott, Vidal, Bastien, Garner, Elizabeth, Slorach, Euan M., Lau, Elaine, Banh, Lynda M., Lied, Alexandra M., Edwards, Leslie S., Settle, Alexander H., Capurso, Daniel, Llaca, Victor, Deschamps, Stéphane, Cigan, Mark, Young, Joshua K., and May, Andrew P.

Published
2023
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16. Valley Phenomena in the Candidate Phase Change Material WSe$_{2(1-x)}$Te$_{2x}$

Author

Oliver, Sean M., Young, Joshua, Krylyuk, Sergiy, Reinecke, Thomas L., Davydov, Albert V., and Vora, Patrick M.

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

Alloyed transition metal dichalcogenides provide an opportunity for coupling band engineering with valleytronic phenomena in an atomically-thin platform. However, valley properties in alloys remain largely unexplored. We investigate the valley degree of freedom in monolayer alloys of the phase change candidate material WSe$_{2(1-x)}$Te$_{2x}$. Low temperature Raman measurements track the alloy-induced transition from the semiconducting 1H phase of WSe$_2$ to the semimetallic 1T$_d$ phase of WTe$_2$. We correlate these observations with density functional theory calculations and identify new Raman modes from W-Te vibrations in the 1H alloy phase. Photoluminescence measurements show ultra-low energy emission features that highlight alloy disorder arising from the large W-Te bond lengths. Interestingly, valley polarization and coherence in alloys survive at high Te compositions and are more robust against temperature than in WSe$_2$. These findings illustrate the persistence of valley properties in alloys with highly dissimilar parent compounds and suggest band engineering can be utilized for valleytronic devices., Comment: Manuscript: 27 pages, 6 figures, 1 table. Supplementary Information: 15 pages, 12 figures, 2 notes

Published
2019
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20. Regular Expressions and Transducers over Alphabet-invariant and User-defined Labels

Author

Konstantinidis, Stavros, Moreira, Nelma, Reis, Rogerio, and Young, Joshua

Subjects
Computer Science - Formal Languages and Automata Theory
Abstract

We are interested in regular expressions and transducers that represent word relations in an alphabet-invariant way---for example, the set of all word pairs u,v where v is a prefix of u independently of what the alphabet is. Current software systems of formal language objects do not have a mechanism to define such objects. We define transducers in which transition labels involve what we call set specifications, some of which are alphabet invariant. In fact, we give a more broad definition of automata-type objects, called labelled graphs, where each transition label can be any string, as long as that string represents a subset of a certain monoid. Then, the behaviour of the labelled graph is a subset of that monoid. We do the same for regular expressions. We obtain extensions of a few classic algorithmic constructions on ordinary regular expressions and transducers at the broad level of labelled graphs and in such a way that the computational efficiency of the extended constructions is not sacrificed. For regular expressions with set specs we obtain the corresponding partial derivative automata. For transducers with set specs we obtain further algorithms that can be applied to questions about independent regular languages, in particular the witness version of the independent property satisfaction question.

Published
2018

21. Inducing Spontaneous Electric Polarizations in Double Perovskite Iodide Superlattices for New Ferroelectric Photovoltaic Materials

Author

Young, Joshua and Rondinelli, James M.

Subjects
Condensed Matter - Materials Science
Abstract

In this work, we use density functional theory calculations to demonstrate how spontaneous electric polarizations can be induced \textit{via} a hybrid improper ferroelectric mechanism in iodide perovskites, a family well-known to display solar-optimal band gaps, to create new materials for photoferroic applications. We first assemble three chemically distinct ($A$$A^{\prime}$)($B$$B^{\prime}$)I$_6$ double perovskites using centrosymmetric $AB$I$_3$ perovskite iodides (where $A$ = Cs, Rb, K and $B$ = Sn, Ge) as building units. In each superlattice, we investigate the effects of three types of $A$- and $B$-site cation ordering schemes and three different $B$I$_6$ octahedral rotation patterns. Out of these 27 combinations, we find that 15 produce polar space groups and display spontaneous electric polarizations ranging from 0.26 to 23.33 $\mu$C/cm$^2$. Furthermore, we find that a layered $A$-site/rock salt $B$-site ordering, in the presence of an $a^0a^0c^+$ rotation pattern, produces a chiral "vortex-like" $A$-site displacement pattern. We then investigate the effect of epitaxial strain on one of these systems, (CsRb)(SnGe)I$_6$, in layered and rock salt ordered configurations. In both phases, we find strong competition between the cation ordering schemes as well as an enhancement of the spontaneous polarization magnitude under tensile strain. Finally, using advanced functionals, we demonstrate that these compounds display low band gaps ranging from 0.2 to 1.3 eV. These results demonstrate that cation ordering and epitaxial strain are powerful ways to induce and control new functionalities in technologically-useful families of materials.

Published
2018
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25. CANDELS: Elevated Black Hole Growth in the Progenitors of Compact Quiescent Galaxies at z~2

Author

Kocevski, Dale D., Barro, Guillermo, Faber, S. M., Dekel, Avishai, Somerville, Rachel S., Young, Joshua A., Williams, Christina C., McIntosh, Daniel H., Georgakakis, Antonis, Hasinger, Guenther, Nandra, Kirpal, Civano, Francesca, Alexander, David M., Almaini, Omar, Conselice, Christopher J., Donley, Jennifer L., Ferguson, Harry C., Giavalisco, Mauro, Grogin, Norman A., Hathi, Nimish, Hawkins, Matthew, Koekemoer, Anton M., Koo, David C., McGrath, Elizabeth J., Mobasher, Bahram, Gonzalez, Pablo G. Perez, Pforr, Janine, Primack, Joel R., Santini, Paola, Stefanon, Mauro, Trump, Jonathan R., van der Wel, Arjen, Wuyts, Stijn, and Yan, Haojing

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We examine the fraction of massive ($M_{*}>10^{10} M_{\odot}$), compact star-forming galaxies (cSFGs) that host an active galactic nucleus (AGN) at $z\sim2$. These cSFGs are likely the direct progenitors of the compact quiescent galaxies observed at this epoch, which are the first population of passive galaxies to appear in large numbers in the early Universe. We identify cSFGs that host an AGN using a combination of Hubble WFC3 imaging and Chandra X-ray observations in four fields: the Chandra Deep Fields, the Extended Groth Strip, and the UKIDSS Ultra Deep Survey field. We find that $39.2^{+3.9}_{-3.6}$\% (65/166) of cSFGs at $1.4

Published
2017
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26. Electric‐Field Manipulation of Magnetic Chirality in a Homo‐Ferro‐Rotational Helimagnet.

Author

Yang, Junjie, Matsuda, Masaaki, Tyson, Trevor, Young, Joshua, Ratcliff, William, Gao, Yunpeng, Obeysekera, Dimuthu, Guo, Xiaoyu, Owen, Rachel, Zhao, Liuyan, and Cheong, Sang‐wook

Subjects
MAGNETIC structure, CRYSTAL growth, MAGNETIC domain, NEUTRON diffraction, HELICAL structure
Abstract

Ferro‐rotational (FR) materials, renowned for their distinctive material functionalities, present challenges in the growth of homo‐FR crystals (i.e., single FR domain). This study explores a cost‐effective approach to growing homo‐FR helimagnetic RbFe(SO4)2 (RFSO) crystals by lowering the crystal growth temperature below the TFR threshold using the high‐pressure hydrothermal method. Through polarized neutron diffraction experiments, it is observed that nearly 86% of RFSO crystals consist of a homo‐FR domain. Notably, RFSO displays remarkable stability in the FR phase, with an exceptionally high TFR of ≈573 K. Furthermore, RFSO exhibits a chiral helical magnetic structure with switchable ferroelectric polarization below 4 K. Importantly, external electric fields can induce a single magnetic domain state and manipulate its magnetic chirality. The findings suggest that the search for new FR magnets with outstanding material properties should consider magnetic sulfates as promising candidates. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Enhancement of Electrochemical Nitrogen Reduction Activity and Suppression of Hydrogen Evolution Reaction for Transition Metal Oxide Catalysts: The Role of Proton Intercalation and Heteroatom Doping

Author

Li, Qingdong, primary, Kucukosman, Oguz Kaan, additional, Ma, Qingquan, additional, Ouyang, Junjie, additional, Kucheryavy, Pavel, additional, Gu, Hengfei, additional, Long, Conor L., additional, Zhang, Zhiyuan, additional, Young, Joshua, additional, Lockard, Jenny V., additional, Garfunkel, Eric, additional, Gao, Jianan, additional, Zhang, Wen, additional, and He, Huixin, additional

Published
2024
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36. Crystal Structure and Electronic Properties of Bulk and Thin Film Brownmillerite Oxides

Author

Young, Joshua and Rondinelli, James M.

Subjects
Condensed Matter - Materials Science
Abstract

The equilibrium structure and functional properties exhibited by brownmillerite oxides, a family of perovskite-derived structures with alternating layers of $B$O$_6$ octahedra and $B$O$_4$ tetrahedra, viz., ordered arrangements of oxygen vacancies, is dependent on a variety of competing crystal-chemistry factors. We use electronic structure calculations to disentangle the complex interactions in two ferrates, Sr$_2$Fe$_2$O$_5$ and Ca$_2$Fe$_2$O$_5$, relating the stability of the equilibrium (strain-free) and thin film structures to both previously identified and newly herein proposed descriptors. We show that cation size and intralayer separation of the tetrahedral chains provide key contributions to the preferred ground state. We show the bulk ground state structure is retained in the ferrates over a range of strain values; however, a change in the orientation of the tetrahedral chains, i.e., a perpendicular orientation of the vacancies relative to the substrate, is stabilized in the compressive region. The structure stability under strain is largely governed by maximizing the intraplane separation of the `dipoles' generated from rotations of the FeO$_4$ tetrahedra. Lastly, we find that the electronic band gap is strongly influenced by strain, manifesting as an unanticipated asymmetric-vacancy alignment dependent response. This atomistic understanding establishes a practical route for the design of novel functional electronic materials in thin film geometries., Comment: 10 pages, 9 figures

Published
2015
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37. Optimal state discrimination and unstructured search in nonlinear quantum mechanics

Author

Childs, Andrew M. and Young, Joshua

Subjects
Quantum Physics
Abstract

Nonlinear variants of quantum mechanics can solve tasks that are impossible in standard quantum theory, such as perfectly distinguishing nonorthogonal states. Here we derive the optimal protocol for distinguishing two states of a qubit using the Gross-Pitaevskii equation, a model of nonlinear quantum mechanics that arises as an effective description of Bose-Einstein condensates. Using this protocol, we present an algorithm for unstructured search in the Gross-Pitaevskii model, obtaining an exponential improvement over a previous algorithm of Meyer and Wong. This result establishes a limitation on the effectiveness of the Gross-Pitaevskii approximation. More generally, we demonstrate similar behavior under a family of related nonlinearities, giving evidence that the ability to quickly discriminate nonorthogonal states and thereby solve unstructured search is a generic feature of nonlinear quantum mechanics., Comment: 14 pages, 4 figures; published version, with minor corrections and an improved discussion of the validity of the Gross-Pitaevskii approximation

Published
2015
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40. Tuning the Ferroelectric Polarization in $AA^{\prime}$MnWO$_6$ Double Perovskites through $A$ Cation Substitution

Author

Young, Joshua, Stroppa, Alessandro, Picozzi, Silvia, and Rondinelli, James M.

Subjects
Condensed Matter - Materials Science
Abstract

Recent experimental and theoretical work has shown that the double perovskite NaLaMnWO$_6$ exhibits antiferromagnetic ordering owing to the Mn $d$ states, and computational studies further predict it to exhibit a spontaneous electric polarization due to an improper mechanism for ferroelectricity [King \textit{et al., Phys.\ Rev.\ B}, 2009, \textbf{79}, 224428; Fukushima \textit{et al., Phys.\ Chem.\ Chem.\ Phys.}, 2011, \textbf{13}, 12186], which make it a candidate multiferroic material. Using first-principles density functional calculations, we investigate nine isostructural and isovalent $AA^{\prime}$MnWO$_6$ double perovskites ($A$=Na, K, and Rb; $A^{\prime}$=La, Nd, and Y) with the aim of articulating crystal-chemistry guidelines describing how to enhance the magnitude of the electric polarization through chemical substitution of the $A$-site while retaining long-range magnetic order. We find that the electric polarization can be enhanced by up to 150\% in compounds which maximize the difference in the ionic size of the $A$ and $A^{\prime}$ cations. By examining the tolerance factors, bond valences, and structural distortions (described by symmetry-adapted modes) of the nine compounds, we identify the atomic scale features that are strongly correlated with the ionic and electronic contributions to the electric polarization. We also find that each compound exhibits a purely electronic remnant polarization, even in the absence of a displacive polar mode. The analysis and design strategies presented here can be further extended to additional members of this family ($B$=Fe, Co, etc.), and the improper ferroelectric nature of the mechanism allows for the decoupling of magnetic and ferroelectric properties and the targeted design of novel multiferroics., Comment: 10 pages, 9 figures

Published
2014
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41. Improper Ferroelectricity and Piezoelectric Responses in Rhombohedral ($A$,$A^{\prime}$)$B_2$O$_6$ Perovskite Oxides

Author

Young, Joshua and Rondinelli, James M.

Subjects
Condensed Matter - Materials Science
Abstract

High-temperature electronic materials are in constant demand as the required operational range for various industries increases. Here we design $(A,A^\prime)B_2$O$_6$ perovskite oxides with [111] ``rock salt" $A$-site cation order and predict them to be potential high-temperature piezoelectric materials. By selecting bulk perovskites which have a tendency towards only out-of-phase $B$O$_6$ rotations, we avoid possible staggered ferroelectric to paraelectric phase transitions while also retaining non-centrosymmetric crystal structures necessary for ferro- and piezoelectricity. Using density functional theory calculations, we show that (La,Pr)Al$_2$O$_6$ and (Ce,Pr)Al$_2$O$_6$ display spontaneous polarizations in their polar ground state structures; we also compute the dielectric and piezoelectric constants for each phase. Additionally, we predict the critical phase transition temperatures for each material from first-principles to demonstrate that the piezoelectric responses, which are comparable to traditional lead-free piezoelectrics, should persist to high temperature. These features make the rock salt $A$-site ordered aluminates candidates for high-temperature sensors, actuators, or other electronic devices., Comment: 9 pages, 3 figures

Published
2014
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42. Miniature type V-F CRISPR-Cas nucleases enable targeted DNA modification in cells

Author

Bigelyte, Greta, Young, Joshua K., Karvelis, Tautvydas, Budre, Karolina, Zedaveinyte, Rimante, Djukanovic, Vesna, Van Ginkel, Elizabeth, Paulraj, Sushmitha, Gasior, Stephen, Jones, Spencer, Feigenbutz, Lanie, Clair, Grace St., Barone, Pierluigi, Bohn, Jennifer, Acharya, Ananta, Zastrow-Hayes, Gina, Henkel-Heinecke, Selgar, Silanskas, Arunas, Seidel, Ralf, and Siksnys, Virginijus

Published
2021
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43. Complicating Audience: A Critical Communication Pedagogy Commitment

Author

Young, Joshua E. and Potter, David J.

Abstract

Courses: This activity is designed specifically for public-speaking courses, but it could be used in the general introductory communication course. It also holds potential for use in persuasion, argumentation, or strategic communication courses. Objectives: This activity helps students understand audience as a more complicated concept--one that recognizes the power of a speaker in creating and challenging communities and interrogating power through their performative speeches in the courses named above.

Published
2018
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48. Superior field performance of waxy corn engineered using CRISPR–Cas9

Author

Gao, Huirong, Gadlage, Mark J., Lafitte, H. Renee, Lenderts, Brian, Yang, Meizhu, Schroder, Megan, Farrell, Jeffry, Snopek, Kay, Peterson, Dave, Feigenbutz, Lanie, Jones, Spencer, St Clair, Grace, Rahe, Melissa, Sanyour-Doyel, Nathalie, Peng, Chenna, Wang, Lijuan, Young, Joshua K., Beatty, Mary, Dahlke, Brian, Hazebroek, Jan, Greene, Thomas W., Cigan, A. Mark, Chilcoat, N. Doane, and Meeley, R. Bob

Published
2020
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49. Multi-Resolution Characterization of the Coupling Effects of Molten Salts, High Temperature and Irradiation on Intergranular Fracture

Author

Dingreville, Remi, primary, Bielejec, Edward, additional, Chen, Elton, additional, Deo, C., additional, Kim, E., additional, Singh, P., additional, Spearot, D., additional, Startt, Jacob, additional, Stewart, James, additional, Sugar, Joshua, additional, Vizoso, D., additional, Weck, Philippe, additional, and Young, Joshua, additional

Published
2021
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