Two Shades of Opacity: Hidden Orders and Dark Trading

Abstract Broken symmetries in solids involving higher order multipolar degrees of freedom are historically referred to as “hidden orders” due to the formidable task of detecting them with conventional probes. In this work, we theoretically propose that magnetostriction provides a powerful and novel tool to directly detect higher-order multipolar symmetry breaking—such as the elusive octupolar order—by examining scaling behaviour of length change with respect to an applied magnetic field h. Employing a symmetry-based Landau theory, we focus on the family of Pr-based cage compounds with strongly correlated f-electrons, Pr(Ti,V,Ir)2(Al,Zn)20, whose low energy degrees of freedom are purely higher-order multipoles: quadrupoles $${\cal{O}}_{20,22}$$ O 20 , 22 and octupole $${\cal{T}}_{xyz}$$ T x y z . We demonstrate that a magnetic field along the [111] direction induces a distinct linear-in-h length change below the octupolar ordering temperature. The resulting “magnetostriction coefficient” is directly proportional to the octupolar order parameter, thus providing clear access to such subtle order parameters.

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Hidden order and multipolar exchange striction in a correlated f-electron system

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.2025317118 ◽

2021 ◽

Vol 118 (14) ◽

pp. e2025317118

Author(s):

Leonid V. Pourovskii ◽

Sergii Khmelevskyi

Keyword(s):

Ground State ◽

Electron System ◽

Multipole Moments ◽

Many Body ◽

Cubic Symmetry ◽

Exotic States ◽

Hidden Order ◽

Neptunium Dioxide ◽

Competing Order ◽

Hidden Orders

The nature of order in low-temperature phases of some materials is not directly seen by experiment. Such “hidden orders” (HOs) may inspire decades of research to identify the mechanism underlying those exotic states of matter. In insulators, HO phases originate in degenerate many-electron states on localized f or d shells that may harbor high-rank multipole moments. Coupled by intersite exchange, those moments form a vast space of competing order parameters. Here, we show how the ground-state order and magnetic excitations of a prototypical HO system, neptunium dioxide NpO2, can be fully described by a low-energy Hamiltonian derived by a many-body ab initio force theorem method. Superexchange interactions between the lowest crystal-field quadruplet of Np4+ ions induce a primary noncollinear order of time-odd rank 5 (triakontadipolar) moments with a secondary quadrupole order preserving the cubic symmetry of NpO2. Our study also reveals an unconventional multipolar exchange striction mechanism behind the anomalous volume contraction of the NpO2 HO phase.

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Applications of Machine Learning to Estimating the Sizes and Market Impact of Hidden Orders in the BRICS Financial Markets

Journal of Advanced Studies in Finance ◽

10.14505//jasf.v11.1(21).04 ◽

2020 ◽

Vol 11 (1) ◽

pp. 28

Author(s):

Witness MAAKE ◽

Terence VAN ZYL

Keyword(s):

Machine Learning ◽

Neural Networks ◽

Artificial Neural Networks ◽

Financial Markets ◽

Random Forests ◽

Price Impact ◽

Average Price ◽

Market Impact ◽

Far Right ◽

Hidden Orders

The research aims to investigate the role of hidden orders on the structure of the average market impact curves in the five BRICS financial markets. The concept of market impact is central to the implementation of cost-effective trading strategies during financial order executions. The literature is replicated using the data of visible orders from the five BRICS financial markets. We repeat the implementation of the literature to investigate the effect of hidden orders. We subsequently study the dynamics of hidden orders. The research applies machine learning to estimate the sizes of hidden orders. We revisit the methodology of the literature to compare the average market impact curves in which true hidden orders are added to visible orders to the average market impact curves in which hidden orders sizes are estimated via machine learning. The study discovers that: (1) hidden orders sizes could be uncovered via machine learning techniques such as Generalized Linear Models (GLM), Artificial Neural Networks (ANN), Support Vector Machines (SVM), and Random Forests (RF); and (2) there exist no set of market features that are consistently predictive of the sizes of hidden orders across different stocks. Artificial Neural Networks produce large R2 and small Mean Squared Error on the prediction of hidden orders of individual stocks across the five studied markets. Random Forests produce the most appropriate average price impact curves of visible and estimated hidden orders that are closest to the average market impact curves of visible and true hidden orders. In some markets, hidden orders produce a convex power-law far-right tail in contrast to visible orders which produce a concave power-law far-right tail. Hidden orders may affect the average price impact curves for orders of size less than the average order size; meanwhile, hidden orders may not affect the structure of the average price impact curves in other markets. The research implies ANN and RF as the recommended tools to uncover hidden orders.

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Atomic-Scale Observation of Spontaneous Hole Doping and Concomitant Lattice Instabilities in Strained Nickelate Films

New Journal of Physics ◽

10.1088/1367-2630/ac4b10 ◽

2022 ◽

Author(s):

I. C. Lin ◽

M. H. Lee ◽

P. C. Wu ◽

S. C. Lin ◽

J. W. Chen ◽

...

Keyword(s):

Atomic Scale ◽

Hole Doping ◽

Ionic Radii ◽

Emergent Phenomena ◽

Epitaxial Strain ◽

Charge Doping ◽

Thin Oxide Films ◽

Band Alignments ◽

Hidden Orders ◽

Interfacial Charge

Abstract Thin oxide films are of vast opportunities for modern electronics and can facilitate emergent phenomena by factors absent in the bulk counterparts, such as the ubiquitous epitaxial strain and interfacial charge doping. Here, we demonstrate the twisting of intended bulk-metallic phases in 10-unit-cell LaNiO3, PrNiO3, and NdNiO3 films on (001)-oriented SrTiO3 into distinct charge-lattice entangled states by epitaxial strains. Using atomically-resolved electron microscopy and spectroscopy, the interfacial electron doping into SrTiO3 in the conventional context of band alignments are discounted. Instead, spontaneously doped holes that are localized and at the order of 1013 cm-2 are atomically unraveled across all three heterointerfaces and associated with strain mitigations by the accompanied atomic intermixing with various ionic radii. The epitaxial strains also lead to condensations of monoclinic-C2/c lattice instabilities, which are hidden to the bulk phase diagram. The group-theoretical analysis of characteristic transition pathways unveils the strain resurrection of the hidden C2/c symmetry. While this strain-induced monoclinic phase in LaNiO3 remains metallic at room temperature, those in PrNiO3 and NdNiO3 turn out to be insulating. Such strain-induced monoclinic lattice instabilities and parasitic localized holes go beyond the classical elastic deformations of films upon epitaxial strains and hint on plausible hidden orders in versatile oxide heterostructures with unexpected properties, of which the exploration is only at the infancy and full of potentials.

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The ubiquity of epistemics: A rebuttal to the ‘epistemics of epistemics’ group

Discourse Studies ◽

10.1177/1461445617734342 ◽

2018 ◽

Vol 20 (1) ◽

pp. 14-56 ◽

Cited By ~ 17

Author(s):

John Heritage

Keyword(s):

Social Action ◽

Human Interaction ◽

Sequence Organization ◽

Epistemic Stance ◽

Psychological Analysis ◽

Social Conduct ◽

Proof Procedure ◽

Discourse Studies ◽

Hidden Orders ◽

Knowledge Claims

In 2016, Discourse Studies published a special issue on the ‘epistemics of epistemics’ comprising six papers, all of which took issue with a strand of my research on how knowledge claims are asserted, implemented and contested through facets of turn design and sequence organization. Apparently coordinated through some years of discussion, the critique is nonetheless somewhat confused and confusing. In this article, I take up some of more prominent elements of the critique: (a) my work is ‘cognitivist’ substituting causal psychological analysis for the classic conversation analytic (CA) focus on the normative accountability of social action, (b) my work devalues and indeed flouts basic tenets of CA methodology such as the ‘next-turn proof procedure’, (c) my analysis of epistemic stance introduces unwarranted themes of conflict and hostility into CA thinking, (d) various concepts that I have introduced involve the invocation of ‘hidden orders’ of social conduct that is inimical to the traditions of our field and (e) that my work rests on an unwarranted ‘informationism’ – the discredited idea that much of human interaction is driven by a need to traffic in information. In this rebuttal, I refute all of these commentaries and correct many other ancillary mistakes of representation and reasoning that inhabit these papers.

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