Gallery — Astronomy & Astrophysics

These instructions provide guidelines for preparing papers for AIAA Technical Journals using LaTeX. You may also use it for preparing papers for AIAA conferences by toggling the documentclass option in the template. AIAA journals provide a panoramic journey from yesterday’s challenges through today's most important aerospace advances in research and development.AIAA’s original research papers present concepts, methods of analysis, technical knowledge, exploratory developments, and new applications. To begin writing online (in your browser), simply click the Open as Template button, above. Additional guidelines for preparing your submission are included within the template itself. If you'd like to download any of the template files including the .cls file, please click "Open as template" above, then download the template “Source” zip file from the menu. This template is designed for submissions to all current AIAA journals: AIAA Journal Journal of Aerospace Information Systems Journal of Aircraft Journal of Air Transportation Journal of Guidance, Control and Dynamics Journal of Propulsion and Power Journal of Spacecraft and Rockets Journal of Thermophysics and Heat Transfer If you're new to Overleaf and LaTeX, check out our free introductory course for help getting started.

Official template for TJAA

A Latex template for the preparation of IAU Symposia Proceedings downloaded from http://www.iau.org/static/scientific_meetings/authors/. The package contains: Class File (iau.cls), Instructions, a Sample PDF and a Sample TeX file

Template for Journal of Cosmology and Astrophysics.

Template for white paper submissions to the 2020 Long Range plane for Canadian astronomy, LRP2020. For further information see the call for white papers

Unofficial PhD thesis template for astronomy at Lund University. See the README.txt file for instructions.

With the detectors currently off, LIGO has detected and gathered an abundance of data from the second observing run (O2). Some of which, captures the most recent triggers that are potential candidates for future gravitational waves, are analyzed more thoroughly. My responsibility as a student researcher is to perform independent checks on four of the most recent Compact Binary Coalescence (CBC) triggers. In order to do so, I compare the \(h(t)\) Omega scans of these events to the Gravity Spy classes. Omega scans are a detector characterization tool to help measure the Signal-to-Noise-Ratio (SNR) of transient noises during detections. This helps scientists distinguish the difference between a gravitational wave signal, which looks like a `chirp' versus a glitch in the data. Gravity Spy is a citizen science program that helps LIGO in classifying glitches to improve machine learning for gravitational wave signals. For each event I determine if it looks like one of the known categories of solved or unsolved glitches seen in the Advanced LIGO detectors? My results are then recorded in the O2 event detection checklist. Omega scans are a `burst-type' search pipeline that detect glitches efficiently. The Omega scan is labeled using time measured in seconds on the x-axis, frequency measured in Hz on the y-axis and the signal measured is normalized to demonstrate how `loud' the noise is.

Fortgeschrittenenpraktikum Astronomie Hausarbeit an der Universitäts-Sternwarte München (LMU).

Template for Polish Astronomical Society (PTA) proceedings