Alexander Beckett, Marc Rafelski, Claudia Scarlata, Wanjia Hu, Keunho Kim, Ilias Goovaerts, Matthew A. Malkan, Wayne Webb, Harry Teplitz, Matthew Hayes, Vihang Mehta, Anahita Alavi, Andrew J. Bunker, Annalisa Citro, Nimish Hathi, Alaina Henry, Alexandra Le Reste, Alessia Moretti, Michael J. Rutkowski, Maxime Trebitsch and Anita Zanella
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引用次数: 0
摘要
我们介绍了平行电离辐射率(PIE)调查的调查设计和初步结果。PIE是一项大型哈勃太空望远镜调查,旨在探测3.1 < z < 3.5的莱曼连续体(LyC)发射星系,并将它们的图像堆叠起来,以测量LyC逃逸分数作为星系特性的函数。PIE在三个滤波器(F336W、F625W和F814W)中对37个独立场进行了成像,其中18个是在PIE+程序的第四个波段(F475W)上观测到的。我们使用光度颜色选择了3.1 < z < 3.5的候选莱曼破裂星系(LBGs),可以使用地面光谱仪进行跟踪以确认它们的红移。与以前的调查不同,我们使用了许多独立的场来消除星系间介质(IGM)中相关吸收引起的偏差。在本文中,我们描述了调查设计,光度测量,并使用模拟星系样本来优化我们的颜色选择。使用三个滤波器,我们可以选择一个星系样本,其中约90%是lbg,超过30%位于3.1 < z < 3.5范围内,我们可以在F336W中检测到未污染的LyC发射。我们还使用模拟IGM的视线来测量IGM的预期传输,这将使我们能够确定我们堆叠星系的逃逸分数。我们用颜色选择了约1400个星系,并预测其中包括约80个lyc发射星系和约500个我们可以用于堆叠的星系。最后,我们给出了一个星系在z≈2.99处的Keck/LRIS光谱,证明我们可以从地面确认z ~ 3星系的红移。
The Parallel Ionizing Emissivity Survey (PIE). I. Survey Design and Selection of Candidate Lyman Continuum Leakers at 3.1 < z < 3.5
We present the survey design and initial results from the Parallel Ionizing Emissivity (PIE) survey. PIE is a large Hubble Space Telescope survey designed to detect Lyman continuum (LyC) emitting galaxies at 3.1 < z < 3.5 and stack their images in order to measure average LyC escape fractions as a function of galaxy properties. PIE has imaged 37 independent fields in three filters (F336W, F625W, and F814W), of which 18 are observed with a fourth band (F475W) from the accompanying PIE+ program. We use photometric colors to select candidate Lyman break galaxies (LBGs) at 3.1 < z < 3.5, which can be followed up using ground-based spectrographs to confirm their redshifts. Unlike previous surveys, we use many independent fields to remove biases caused by correlated absorption in the intergalactic medium (IGM). In this paper, we describe the survey design, photometric measurements, and the use of mock galaxy samples to optimize our color selection. With three filters, we can select a galaxy sample of which ≈90% are LBGs and over 30% lie in the 3.1 < z < 3.5 range for which we can detect uncontaminated LyC emission in F336W. We also use mock IGM sight lines to measure the expected transmission of the IGM, which will allow us to determine escape fractions from our stacked galaxies. We color-select ≈1400 galaxies, and predict that this includes ≈80 LyC-emitting galaxies and ≈500 that we can use in stacking. Finally, we present the Keck/LRIS spectrum of a galaxy at z ≈ 2.99, demonstrating that we can confirm the redshifts of z ∼ 3 galaxies from the ground.
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