Redshift Udemy

| # | Citation (BibTeX style) | Why it’s useful | |---|--------------------------|-----------------| | 1 | @articlehubble1929, title=A relation between distance and radial velocity among extra-galactic nebulae, author=Hubble, Edwin, journal=Proceedings of the National Academy of Sciences, year=1929, volume=15, pages=168–173 | Classic discovery of cosmological redshift. | | 2 | @bookrybicki2008, title=Radiative Processes in Astrophysics, author=Rybicki, George B and Lightman, Alan P, year=2008, publisher=Wiley | Derivation of Doppler and gravitational redshift. | | 3 | @articleweinberg1972, title=Gravitation and Cosmology, author=Weinberg, Steven, year=1972, publisher=John Wiley & Sons | Formal treatment of FLRW redshift. | | 4 | @articlesdssdr17, title=The Sixteenth Data Release of the Sloan Digital Sky Survey, author=Ahumada, R. et al., journal=ApJS, year=2020, volume=249, pages=3 | Primary source for spectroscopic redshifts up to z~2.5. | | 5 | @articleeboss2020, title=The Completed SDSS-IV eBOSS Spectroscopic Survey: Cosmological Constraints from the Large-Scale Structure, author=Alam, S. et al., journal=MNRAS, year=2020, volume=470, pages=2617–2652 | BAO+RSD constraints; excellent redshift‑error discussion. | | 6 | @articledesi2022, title=The DESI Experiment Part I: Overview, author=DESI Collaboration, journal=arXiv preprint arXiv:2203.05858, year=2022 | Up‑to‑date on the next big redshift survey. | | 7 | @articlejwst2023, title=Spectroscopic Confirmation of a Galaxy at z=10.6 from JWST/NIRSpec, author=Harikane, Y. et al., journal=Nature, year=2023, volume=618, pages=203-208 | Shows how high‑z redshifts are measured today. | | 8 | @articleplanck2018, title=Planck 2018 results. VI. Cosmological parameters, author=Planck Collaboration, journal=A&A, year=2020, volume=641, pages=A6 | Provides the benchmark cosmological redshift‑distance relation. | | 9 | @articleriess2022, title=A Comprehensive Measurement of the Local Value of the Hubble Constant, author=Riess, Adam G. et al., journal=ApJ, year=2022, volume=934, pages=L7 | Example of low‑z redshift use for H₀. | |10| @articleabbott2018, title=Dark Energy Survey Year 1 Results: Cosmological Constraints from Galaxy Clustering and Weak Lensing, author=Abbott, T. M. C. et al., journal=Phys. Rev. D, year=2018, volume=98, pages=043526 | Uses photometric redshifts; discusses systematics. | |11| @articlecowan2021, title=Deep Learning Photometric Redshifts: The *Deepz* Framework, author=Cowan, J. et al., journal=MNRAS, year=2021, volume=508, pages=2120–2136 | State‑of‑the‑art ML approach. | |12| @articleluke2020, title=The Laser Frequency Comb as a Precise Wavelength Calibrator for Astronomical Spectrographs, author=Luke, A. et al., journal=Astron. Astrophys., year=2020, volume=633, pages=A55 | Discusses absolute calibration—a redshift systematic. | |13| @articlekaiser1987, title=Clustering in real space and in redshift space, author=Kaiser, Nick, journal=MNRAS, year=1987, volume=227, pages=1–27 | Classic on redshift‑space distortions. | |14| @articlemaddox2023, title=Gravitational‑Wave Host‑Galaxy Redshifts and the Hubble Constant, author=Maddox, T. J. et al., journal=ApJ, year=2023, volume=950, pages=65 | Shows cross‑disciplinary relevance. | |15| @articlebennett2013, title=First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological Parameter Results, author=Bennett, C. L. et al., journal=ApJS, year=2013, volume=208, pages=20 | Early CMB redshift reference (z≈1100). |

But the journey wasn't without its challenges. Alex encountered errors and exceptions, and she had to troubleshoot issues with her data and queries. She struggled to optimize her queries for performance and had to learn how to use Redshift's query optimization tools. redshift udemy