Zachariah S. Schrecengost scite author profile

Zachariah S. Schrecengost

4Publications

29Citation Statements Received

156Citation Statements Given

How they've been cited

How they cite others

145

Affiliations

Living Systems (United States), State University of New York at Oswego, Syracuse University

Publications

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Period–color and Amplitude–color Relations at Maximum and Minimum Light for Rr Lyrae Stars in The sdss Stripe 82 Region

Ngeow

Bhardwaj

Schrecengost

et al. 2017

ApJ

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Investigation of period-color (PC) and amplitude-color (AC) relations at the maximum and minimum light can be used to probe the interaction of the hydrogen ionization front (HIF) with photosphere and the radiation hydrodynamics of the outer envelopes of Cepheids and RR Lyraes. For example, theoretical calculations indicated that such interactions would occur at minimum light for RR Lyrae and result in a flatter PC relation. In the past, the PC and AC relations have been investigated by using either the (V − R) MACHO or (V − I) colors. In this work, we extend previous work to other bands by analyzing the RR Lyraes in the Sloan Digital Sky Survey Stripe 82 Region. Multi-epoch data is available for RR Lyraes located within the footprint of the Stripe 82 Region in five (ugriz) bands. We present the PC and AC relations at maximum and minimum light in four colors: (u − g) 0 , (g − r) 0 , (r − i) 0 and (i − z) 0 , after they are corrected for extinction. We found that the PC and AC relations for this sample of RR Lyraes show a complex nature in the form of flat, linear or quadratic relations. Furthermore, the PC relations at minimum light for fundamental mode RR Lyrae stars are separated according to the Oosterhoff type, especially in the (g − r) 0 and (r − i) 0 colors. If only considering the results from linear regressions, our results are quantitatively consistent with the theory of HIF-photosphere interaction for both fundamental and first overtone RR Lyraes.

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Crumples as a Generic Stress-Focusing Instability in Confined Sheets

Timounay

Stelzel

et al. 2020

Phys. Rev. X

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Thin elastic solids are easily deformed into a myriad of three-dimensional shapes, which may contain sharp localized structures as in a crumpled candy wrapper, or have smooth and diffuse features like the undulating edge of a flower. Anticipating and controlling these morphologies is crucial to a variety of applications involving textiles, synthetic skins, and inflatable structures. Here we show that a "wrinkle-to-crumple" transition, previously observed in specific settings, is a ubiquitous response for confined sheets. This unified picture is borne out of a suite of model experiments on polymer films confined to liquid interfaces with spherical, hyperbolic, and cylindrical geometries, which are complemented by experiments on macroscopic membranes inflated with gas. We use measurements across this wide range of geometries, boundary conditions, and lengthscales to quantify several robust morphological features of the crumpled phase, and we build an empirical phase diagram for crumple formation that disentangles the competing effects of curvature and compression. Our results suggest that crumples are a generic microstructure that emerge at large curvatures due to a competition of elastic and substrate energies.

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Coupled Oscillators and Normal Modes

Ilie¹,

Schrecengost²,

Kempen³

2022

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Energy

Ilie¹,

Schrecengost²,

Kempen³

2022

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