Zimmerman en Space

Op 11 maart van dit jaar verscheen er een artikel in The Astrophysical Journal Letters met de titel "Gaia-GIC-1: An Evolving Catastrophic Planetesimal Collision Candidate". In deze aflevering van de Zimmerman en Space podcast kijken we samen wat dit nou weer te betekenen heeft.
'Completely bonkers': Astronomers find evidence of a cataclysmic collision between exoplanets:

https://www.space.com/astronomy/exoplanets/completely-bonkers-astronomers-find-evidence-of-a-cataclysmic-collision-between-planets

Gaia-GIC-1: An Evolving Catastrophic Planetesimal Collision Candidate:

https://iopscience.iop.org/article/10.3847/2041-8213/ae3ddc

Gaia20ehk:

https://gsaweb.ast.cam.ac.uk/alerts/alert/Gaia20ehk/

WISE ruimtetelescoop:

https://www.jpl.nasa.gov/missions/wide-field-infrared-survey-explorer-wise/

Suspected Asteroid Collision Leaves Odd X-Pattern of Trailing Debris:

https://science.nasa.gov/missions/hubble/suspected-asteroid-collision-leaves-odd-x-pattern-of-trailing-debris/

De Zimmerman en Space podcast is gelicenseerd onder een Creative Commons CC0 1.0 licentie.

http://creativecommons.org/publicdomain/zero/1.0

Naar aanleiding van een aantal vragen van luisteraar Bas, kijken we in deze ietwat lange aflevering naar hoe planeten rond sterren cirkelen.
The mass-period distribution of close-in exoplanets:

https://www.aanda.org/articles/aa/full_html/2011/04/aa15774-10/aa15774-10.html

Halting Planet Migration In The Evacuated Centers Of Protoplanetary Disks:

https://iopscience.iop.org/article/10.1086/342370/pdf

Orbital migration of the planetary companion of 51 Pegasi to its present location:

https://pages.astro.umd.edu/~dcr/reprints/lin_nature380,606.pdf

Connecting the dots II: Phase changes in the climate dynamics of tidally locked terrestrial exoplanets:

https://arxiv.org/pdf/1508.00419

The climate and habitability of planets with eternal day and night sides:

https://serious-science.org/the-climate-and-habitability-of-planets-with-eternal-day-and-night-sides-5289

import numpy as np
import matplotlib.pyplot as plt
import matplotlib.ticker as ticker

a  = 1.0   # semi-major axis (AU)
M2 = 1.0   # mass of the central body

# M1: mass of the orbiting body, from 0 to 1
M1 = np.linspace(0, 1, 500)

# Newton's law
T = np.sqrt(a**3 / (M1 + M2))

fig, ax = plt.subplots(figsize=(9, 5.5))
fig.patch.set_facecolor("#0d1117")
ax.set_facecolor("#0d1117")

# Gradient-ish line via a LineCollection
from matplotlib.collections import LineCollection
points = np.array([M1, T]).T.reshape(-1, 1, 2)
segments = np.concatenate([points[:-1], points[1:]], axis=1)
norm = plt.Normalize(T.min(), T.max())
lc = LineCollection(segments, cmap="cool", norm=norm, linewidth=2.5, zorder=3)
lc.set_array(T)
ax.add_collection(lc)

ax.scatter([0], [np.sqrt(a**3 / M2)], color="#ff6b9d", s=70, zorder=5,
           label=f"Test-particle limit  (M₁→0,  T={np.sqrt(a**3/M2):.3f} yr)")

T_eq = np.sqrt(a**3 / (M2 + M2))
ax.scatter([M2], [T_eq], color="#ffd166", s=70, zorder=5,
           label=f"Equal masses  (M₁=M₂={M2},  T={T_eq:.3f} yr)")

for spine in ax.spines.values():
    spine.set_edgecolor("#30363d")

ax.tick_params(colors="#8b949e", labelsize=10)
ax.xaxis.label.set_color("#c9d1d9")
ax.yaxis.label.set_color("#c9d1d9")

ax.set_xlabel("M₁  — Mass of orbiting body  (M☉)", fontsize=12, labelpad=10)
ax.set_ylabel("Orbital Period  T  (years)", fontsize=12, labelpad=10)
ax.set_title("Orbital Period vs. Mass of Orbiting Body\n"
             r"$T = \sqrt{\,a^3\,/\,(M_1+M_2)\,}$"
             f"       [a = {a} AU,  M₂ = {M2} M☉]",
             color="#e6edf3", fontsize=13, pad=14)

ax.set_xlim(-0.01, 1.01)
ax.set_ylim(T.min() * 0.97, T.max() * 1.03)

ax.grid(color="#21262d", linestyle="--", linewidth=0.7, zorder=0)
ax.legend(facecolor="#161b22", edgecolor="#30363d",
          labelcolor="#c9d1d9", fontsize=10, loc="upper right")

plt.tight_layout()
plt.show()

De Zimmerman en Space podcast is gelicenseerd onder een Creative Commons CC0 1.0 licentie.

http://creativecommons.org/publicdomain/zero/1.0

Veel van wat zich afspeelt in ons heelal gebeurt op een tijdschaal waarbinnen een mensenleven tamelijk nietig lijkt. In ons verhaaltje van deze week een uitzondering daarop.
Large Magellanic Cloud:

https://en.wikipedia.org/wiki/Large_Magellanic_Cloud

The Physical Properties of the Red Supergiant WOH G64: The Largest Star Known?

https://arxiv.org/pdf/0903.2260

Astronomers just watched a star 1540 times the size of our sun transform into a hypergiant. Will it go supernova?

https://www.space.com/astronomy/stars/astronomers-just-watched-a-star-1-540-times-the-size-of-our-sun-transform-into-a-hypergiant-will-it-go-supernova

The dramatic transition of the extreme red supergiant WOH G64 to a yellow hypergiant:

https://arxiv.org/pdf/2411.19329

De Zimmerman en Space podcast is gelicenseerd onder een Creative Commons CC0 1.0 licentie.

http://creativecommons.org/publicdomain/zero/1.0

Veel van wat zich afspeelt in ons heelal gebeurt op een tijdschaal waarbinnen een mensenleven tamelijk nietig lijkt. In ons verhaaltje van deze week een uitzondering daarop.
Large Magellanic Cloud:

https://en.wikipedia.org/wiki/Large_Magellanic_Cloud

The Physical Properties of the Red Supergiant WOH G64: The Largest Star Known?

https://arxiv.org/pdf/0903.2260

Astronomers just watched a star 1540 times the size of our sun transform into a hypergiant. Will it go supernova?

https://www.space.com/astronomy/stars/astronomers-just-watched-a-star-1-540-times-the-size-of-our-sun-transform-into-a-hypergiant-will-it-go-supernova

The dramatic transition of the extreme red supergiant WOH G64 to a yellow hypergiant:

https://arxiv.org/pdf/2411.19329

De Zimmerman en Space podcast is gelicenseerd onder een Creative Commons CC0 1.0 licentie.

http://creativecommons.org/publicdomain/zero/1.0

Het werd weer eens tijd voor een aflevering vol vreemde ruimtegeluiden, dus... hierbij!
Cluster:

https://www.esa.int/Science_Exploration/Space_Science/Cluster

ESA sounds from space:

https://www.esa.int/Science_Exploration/Space_Science/Sounds_from_space

Hear Sounds From Mars Captured by NASA’s Perseverance Rover:

https://www.nasa.gov/centers-and-facilities/jpl/hear-sounds-from-mars-captured-by-nasas-perseverance-rover/

NASA Sounds from beyond:

https://www.nasa.gov/sounds-from-beyond/

Van Allen Probes Waves Investigation Audio Clips:

https://space.physics.uiowa.edu/plasma-wave/rbsp/audio/

Perseus cluster:

https://chandra.cfa.harvard.edu/sound/perseus.html

NASA's Parker Solar Probe Discovers Natural Radio Emission in Venus' Atmosphere:

https://www.youtube.com/watch?v=z5vK6-wuoOE

De Zimmerman en Space podcast is gelicenseerd onder een Creative Commons CC0 1.0 licentie.

http://creativecommons.org/publicdomain/zero/1.0