Closure to “
            <i>Bearing Capacity of Strip Footing above Void</i>
            ” by R. L. Baus and M. C. Wang (January, 1983)

Baus, R L; Wang, M. C.

doi:10.1061/(asce)0733-9410(1984)110:1(137.2)

Cited by 7 publications

(7 citation statements)

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“…The equilibrium states are then defined by the where we have used the electroneutrality (p = n) of the solid phase. Equation 2.18is seen to be identical to the expression of the electrostatic free energy suggested elsewhere [14][15]. It is now easily checked that each term of AF = AFjj + AF* + AFji is separately well behaved.…”

Section: T Association Euratometat Belgesupporting

confidence: 56%

Density functional theory for the freezing of charged hard spheres embedded in a uniform neutralizing background

Baus

1987

Molecular Physics

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The freezing of equally charged hard sphères embedded in a uniform neu tralizing background is investigated theoretically using a recently developed density functional theory. We find a fluidfc.c. solid transition which naturally extends the uncharged hard sphère transition studied previously. As in ail similar cases investigated hitherto in the literature, the bec solid has been found to be metastable relative to the fluid. Several possible reasons for this rather surprising resuit are discussed in détail.

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Section: T Association Euratometat Belgesupporting

confidence: 56%

Density functional theory for the freezing of charged hard spheres embedded in a uniform neutralizing background

Baus

1987

Molecular Physics

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“…Also Wigner crystals were reported to be experimentally observed in colloidal systems [10]. A few studies were dedicated to laterally confined two-dimensional systems of charged particles, investigating if such systems crystallize at sufficiently low temperatures also into Wigner crystals [11][12][13][14][15][16], see also [17]. Other highly ordered trapped ionic systems have been studied with a distinct quantum computing perspective [18,19].…”

Section: Introductionmentioning

confidence: 99%

The asymmetric Wigner bilayer

Antlanger

Kahl

Mazars

et al. 2018

The Journal of Chemical Physics

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We present a comprehensive discussion of the so-called asymmetric Wigner bilayer system, where mobile point charges, all of the same sign, are immersed into the space left between two parallel, homogeneously charged plates (with possibly different charge densities). At vanishing temperatures, the particles are expelled from the slab interior; they necessarily stick to one of the two plates, and form there ordered sublattices. Using complementary tools (analytic and numerical) we study systematically the self-assembly of the point charges into ordered ground state configurations as the inter-layer separation and the asymmetry in the charge densities are varied. The overwhelming plethora of emerging Wigner bilayer ground states can be understood in terms of the competition of two strategies of the system: the desire to guarantee net charge neutrality on each of the plates and the effort of the particles to self-organize into commensurate sublattices. The emerging structures range from simple, highly commensurate (and thus very stable) lattices (such as staggered structures, built up by simple motives) to structures with a complicated internal structure. The combined application of our two approaches (whose results agree within remarkable accuracy) allows to study on a quantitative level phenomena such as over-and underpopulation of the plates by the mobile particles, the nature of phase transitions between the emerging phases (which pertain to two different universality classes), and the physical laws that govern the long-range behaviour of the forces acting between the plates. Extensive, complementary Monte Carlo simulations in the canonical ensemble, which have been carried out at small, but finite temperatures along selected, well-defined pathways in parameter space confirm the analytical and numerical predictions within high accuracy. The simple setup of the Wigner bilayer system offers an attractive possibility to study and to control complex scenarios and strategies of colloidal self-assembly, via the variation of two simple system parameters.arXiv:1808.07345v1 [cond-mat.soft] 22 Aug 2018 2

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“…In addition to academic commentary, students analyse unpublished papers, ‘zines’, community-based research and engage with films like Transparent (Rosskam, 2005), Cruel and Unusual (Baus et al., 2006) and Screaming Queens: The Riot at Compton’s Cafeteria (Silverman and Stryker, 2005). Such cultural productions lend themselves to enriching understandings of the ways that racialization, colonization, hetero-patriarchy and capitalism frame the diversity of trans subjectivities and experiences within society.…”

Section: Constructing Human Rights Subjectsmentioning

confidence: 99%

Against the grain: Teaching Transgender Human Rights

Irving

2013

Sexualities

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Mirroring the course objectives of my senior undergraduate Transgender Human Rights seminar, this article seeks to challenge trans rights politics. Many rights advocates emphasize the symbolic value of formal acknowledgment of, and protection for, gender identity. I argue that trans rights are achieved through the production of deserving subjects according to colonial, heteronormative, nationalist and capitalist logics. Rights discourses are injurious to a significant number of trans and two-spirit individuals and communities because they obscure relations of governance. Rights ought not to be the driving force of 'trans-' efforts to cultivate broader relations of political solidarity to challenge interlocking systems of power.

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Closure to “ Bearing Capacity of Strip Footing above Void ” by R. L. Baus and M. C. Wang (January, 1983)

Cited by 7 publications

References 0 publications

Density functional theory for the freezing of charged hard spheres embedded in a uniform neutralizing background

Density functional theory for the freezing of charged hard spheres embedded in a uniform neutralizing background

The asymmetric Wigner bilayer

Against the grain: Teaching Transgender Human Rights

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