Zily Burstein scite author profile

Zily Burstein

3Publications

13Citation Statements Received

235Citation Statements Given

How they've been cited

How they cite others

123

232

Affiliations

University of Chicago, Loyola Marymount University

Publications

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Conformal Gravity and the Alcubierre Warp Drive Metric

Varieschi

Burstein

2013

ISRN Astronomy and Astrophysics

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We present an analysis of the classic Alcubierre metric based on conformal gravity, rather than standard general relativity. The main characteristics of the resulting warp drive remain the same as in the original study by Alcubierre, namely that effective super-luminal motion is a viable outcome of the metric.We show that for particular choices of the shaping function, the Alcubierre metric in the context of conformal gravity does not violate the weak energy condition, as was the case of the original solution. In particular, the resulting warp drive does not require the use of exotic matter. Therefore, if conformal gravity is a correct extension of general relativity, super-luminal motion via an Alcubierre metric might be a realistic solution, thus allowing faster-than-light interstellar travel.

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Simulating a Guitar with a Conventional Sonometer

Burstein¹,

Gower²,

Varieschi

2012

OJA

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In this paper we present a simple way to convert a conventional sonometer into a simulated fretted instrument, such as a guitar or similar, by adding a fingerboard to the sonometer. In particular, we use this modified apparatus in relation to the problem of the instrument intonation, i.e., how to obtain correctly tuned notes on these string instruments. The experimental procedures presented in this study can become a more structured laboratory activity to be used in general physics courses or acoustics classes.

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Pattern forming mechanisms of color vision

Burstein

Reid

Thomas

et al. 2023

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While our understanding of the way single neurons process chromatic stimuli in the early visual pathway has advanced significantly in recent years, we do not yet know how these cells interact to form stable representations of hue. Drawing on physiological studies, we offer a dynamical model of how the primary visual cortex tunes for color, hinged on intracortical interactions and emergent network effects. After detailing the evolution of network activity through analytical and numerical approaches, we discuss the effects of the model’s cortical parameters on the selectivity of the tuning curves. In particular, we explore the role of the model’s thresholding nonlinearity in enhancing hue selectivity by expanding the region of stability, allowing for the precise encoding of chromatic stimuli in early vision. Finally, in the absence of a stimulus, the model is capable of explaining hallucinatory color perception via a Turing-like mechanism of biological pattern formation.

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Zily Burstein

Conformal Gravity and the Alcubierre Warp Drive Metric

Simulating a Guitar with a Conventional Sonometer

Pattern forming mechanisms of color vision

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