Signposts: Resource for staff developers

This guide is for staff developers who work with new tertiary teachers, and provides guidelines on how to use 'Signposts: A professional development resource for new teaching staff in the tertiary sector'. It is the result of a project funded by the Ako Aotearoa Northern Hub

Stream temperature modeling and fiber optic temperature sensing to characterize groundwater discharge

The Ngongotaha Stream was used as a case study to assess the applicability of fiber optic distributed temperature sensing (FODTS) to identify the location of springs and quantify their discharge. Thirteen springs were identified, mostly located within a 115 m reach, five discharged from the right bank and eight from the left bank. To quantify groundwater discharge, a new approach was developed in which the one‐dimensional transient heat transport model was fitted to the FODTS measurements, where the main calibration parameters of interest were the unknown spring discharges. The spatial disposition of the groundwater discharge estimation problem was constrained by two sources of information; first, the stream gains ∼500 L/s as determined by streamflow gauging. Second, the temperature profiles of the left and right banks provide the spatial disposition of springs and their relative discharges. FODTS was used to measure stream temperature near the left and right banks, which created two temperature datasets. A weighted average of the two datasets was then calculated, where the weights reflected the degree of mixing between the right and left banks downstream of a spring. The new approach in this study marks a departure from previous studies, in which the general approach was to use the steady‐state thermal mixing model (Selker et al. 2006a; Westhoff et al. 2007; Briggs et al. 2012) to infer groundwater discharge, which is then used as an input into a transient model of the general form of equation to simulate stream temperature (Westhoff et al. 2007)

Wild Sonic Blooms (album)

OJP023 : Haco - Kent Macpherson - Megan Berry - Jeremy Mayall / Wild Sonic Blooms Wild Sonic Blooms is a collaboration between Haco San, the famous Japanese composer, vocalist, electroacoustic performer, sound artist, and founding member of After Dinner (1981-1991) and Hoahio and 3 New-Zealander artists and teachers from the Wintec school of Media Arts Waikato Institute of Technology. They invited Haco San to perform a semi improvised one hour set which was the base for a video performance at Ramp Gallery, Hamilton, NZ - 11.12.2016, by Jeremy Mayall, Kent Macpherson, Megan Berry, and Haco. Kent worked with Haco first in 2012, where she was invited to collaborate with him as part of the Spark international festival of music, media, arts and design. They performed the work 'BugLoop' in Hamilton New Zealand. A multimedia sound art improvisation centred on water as its source. You can watch the full experience here. As part of his 2016 research outputs, Kent applied for a research grant to bring Haco to NZ once again to collaborate with a larger group of musicians. They spent 2 days in Studio A at the school of music (Wintec), recording over 6 hours of music. Also 2 live performances were realised on the same day and captured on film. The afternoon performance is the recording you are experiencing through this release. Performers: Kent Macpherson – octave guitar, keyboard, laptop Jeremy Mayall - keyboard, turntable, iPad Haco - vocals, electronics, howling pot, found sounds Megan Berry - vocals, fx, samplepad "Wild Sonic Blooms" Music composed and created by: Megan Berry, Haco, Kent Macpherson, and, Jeremy Mayall. Recorded live at Ramp Gallery (Dec. 2016) Sound Mix - Dan Edgar Reese Thanks to: Wintec Music Department / David Sidwell / Brad Morgan / Wintec School of Media Arts / Wintec Research Office / ACLX / Ramp Gallery Made possible with the support of Wintec Research Fellowship 2016 Digital release on the 17th of November 2017. Track listing: 1: Wild Sonic Blooms, Pt.1 - Floraison 2: Wild Sonic Blooms, Pt.2 - Saku 3: Wild Sonic Blooms, Pt.3 - Pua Pua 4: Wild Sonic Blooms, Pt.4 - Bloo

Direct Versus Indirect Measurement of Digit Ratio (2D:4D): A Critical Review of the Literature and New Data

Digit ratio (2D:4D: the relative lengths of the second and fourth digits) is widely used as a correlate of prenatal sex steroids. There are two common methods of measuring 2D:4D, the direct method and the indirect method. The modern interest in 2D:4D began 16 years ago when finger lengths were measured directly, but many studies now report 2D:4D calculated from indirectly measured fingers from photocopies or scans. However, there are concerns about the accuracy of the latter in comparison to the former. The purpose of this article was twofold: to review these concerns and to add new data to the debate. Our review shows that in 2005, directional effects in indirect 2D:4D were reported such that direct 2D:4D > indirect 2D:4D. This finding was challenged by a 2006 report that direct 2D:4D was lower (not higher) than indirect 2D:4D for male right-hand 2D:4D. Two further studies from the same group have claimed that indirect 2D:4D may be lower, higher, or comparable to direct 2D:4D. More recent comparisons of direct 2D:4D versus indirect 2D:4D and a meta-analysis of Chinese studies have replicated the finding of direct 2D:4D > indirect 2D:4D. We considered an additional sample and found significant direct 2D:4D > indirect 2D:4D for three of four ratios. The overall literature is discussed within the context of standards of research (sample size) and publishing (clarity of report). It is concluded that direct 2D:4D does tend to be greater than indirect 2D:4D. Implications for comparative studies and other aspects of research in 2D:4D are discussed

Case Notes

A look at the decisions in Langevin v. Chenango Court, Inc., 447 F.2d 296 (2d Cir. 1971); Vasquez v. Superior Court of San Joaquin County. 4 Cal. 3d 800, 484 P.2d 964, 94 Cal. Rptr. 796 (1971); and Dickens v. Ernesto, 30 N.Y.2d 61, 281 N.E.2d 153, 330 N.Y.S.2d 346, appeal dismissed, 40 U.S.L.W. 3596 (1972)

Interatomic collisions in two-dimensional and quasi-two-dimensional confinements with spin-orbit coupling

We investigate the low-energy scattering and bound states of two two-component fermionic atoms in pure two-dimensional (2D) and quasi-2D confinements with Rashba spin-orbit coupling (SOC). We find that the SOC qualitatively changes the behavior of the 2D scattering amplitude in the low-energy limit. For quasi-2D systems we obtain the analytic expression for the effective-2D scattering amplitude and the algebraic equations for the two-atom bound state energy. Based on these results, we further derive the effective 2D interaction potential between two ultracold atoms in the quasi-2D confinement with Rashba SOC. These results are crucial for the control of the 2D effective physics in quasi-2D geometry via the confinement intensity and the atomic three-dimensional scattering length.Comment: 13pages, 5 figure

2D materials and van der Waals heterostructures

The physics of two-dimensional (2D) materials and heterostructures based on such crystals has been developing extremely fast. With new 2D materials, truly 2D physics has started to appear (e.g. absence of long-range order, 2D excitons, commensurate-incommensurate transition, etc). Novel heterostructure devices are also starting to appear - tunneling transistors, resonant tunneling diodes, light emitting diodes, etc. Composed from individual 2D crystals, such devices utilize the properties of those crystals to create functionalities that are not accessible to us in other heterostructures. We review the properties of novel 2D crystals and how their properties are used in new heterostructure devices