Here is something most people don't realize about Venus. It probably has a similar composition to Earth all in all. Not the atmosphere or surface exactly, but get a bit down and its probably similar. That is because it formed at a similar time. #TeamVenus
@izidoro_astro @sraymond_astro @NatureAstronomy @AstroJoanna Citing D&D18 (down in the Methods) is certainly important. However, you claim to "explain the origins of isotopic signatures of Earth, Mars and different classes of meteorites", which is exac
@sraymond_astro @izidoro_astro @NatureAstronomy Congrats on your recent stream of NatAstron papers, Sean! This is impressive work by @izidoro_astro and team.🙂 Why did you choose to omit that https://t.co/y9TSr2Ifi6 already explained the isotopic + inner/o
Bifurcation of planetary building blocks during Solar System formation: https://t.co/YdHxqTOOVn
@EricMamajek @elakdawalla @Deschscoveries Alternative interpretation: the solar system formed from two consecutive episodes of planetesimal formation in the inner and outer disk: https://t.co/VhMqFXUR37. But Sun is similarly in Class 0 or I phase at time o
RT @PlotAstro: We have the Week 4 "Astro Plot of the Week" selection - congratulations! https://t.co/rlSvX3QNDw
RT @PlotAstro: We have the Week 4 "Astro Plot of the Week" selection - congratulations! https://t.co/PwMqCZ3yUI https://t.co/rlSvX3QNDw
RT @PlotAstro: We have the Week 4 "Astro Plot of the Week" selection - congratulations! https://t.co/rlSvX3QNDw
We have the Week 4 "Astro Plot of the Week" selection - congratulations! https://t.co/rlSvX3QNDw
RT @PlotAstro: The "Astro Plot of the Week" should be the plot from (plots are shown above): https://t.co/4RgTJ87Kqg or https://t.co/AZ…
RT @PlotAstro: THREE "Astro Plot of the Week" candidates for Week 4! 1st: plot from https://t.co/4RgTJ87Kqg (nominated by @mireiamontesq)…
3? 🤔👌 @AstroJoanna @TomHandsPhysics @OxoPlanets
RT @PlotAstro: The "Astro Plot of the Week" should be the plot from (plots are shown above): https://t.co/4RgTJ87Kqg or https://t.co/AZ…
RT @PlotAstro: THREE "Astro Plot of the Week" candidates for Week 4! 1st: plot from https://t.co/4RgTJ87Kqg (nominated by @mireiamontesq)…
750+ followers, 36 votes? People, that is weak!
RT @asborlaff: You just have to love @mireiamontesq plots! Everyone vote for her for the @PlotAstro of the week! https://t.co/cQaWMJ2aAu ht…
You just have to love @mireiamontesq plots! Everyone vote for her for the @PlotAstro of the week! https://t.co/1735b4U7u0
The "Astro Plot of the Week" should be the plot from (plots are shown above): https://t.co/4RgTJ87Kqg or https://t.co/AZNITrDCAN or https://t.co/azWvSPqlXw You can start your campaigns of support now!
THREE "Astro Plot of the Week" candidates for Week 4! 1st: plot from https://t.co/4RgTJ87Kqg (nominated by @mireiamontesq) 2nd: plot from https://t.co/AZNITrDCAN (nominated by @BenneHolwerda) 3rd: plot from https://t.co/azWvSPqlXw (nominated by @DrKeith
RT @DrKeithSmith: @PlotAstro Planetesimal growth and isotopic evolution of the Solar System, from https://t.co/5ue6HP2qdI by @tim_lichtenbe…
@PlotAstro Planetesimal growth and isotopic evolution of the Solar System, from https://t.co/5ue6HP2qdI by @tim_lichtenberg et al. https://t.co/1t3v7K49SN
Bifurcation of planetary building blocks during Solar System formation https://t.co/HkPk8ofbGn
RT @ProfAbelMendez: How our planets were formed https://t.co/UcgqmhkhKt study https://t.co/s8atcOCPNL https://t.co/IveH9uOZRq
My seminar today at 10:45 CEST at ICS @UZH_en on our (w/ @AstroJoanna, @TomHandsPhysics) paper on the bifurcated formation of the Solar System (https://t.co/R1efVMsLo2) will be streamed live. 😬😅 Tune in at https://t.co/RiXOCJx4N6 😃
RT @ProfAbelMendez: How our planets were formed https://t.co/UcgqmhkhKt study https://t.co/s8atcOCPNL https://t.co/IveH9uOZRq
RT @ProfAbelMendez: How our planets were formed https://t.co/UcgqmhkhKt study https://t.co/s8atcOCPNL https://t.co/IveH9uOZRq
RT @ProfAbelMendez: How our planets were formed https://t.co/UcgqmhkhKt study https://t.co/s8atcOCPNL https://t.co/IveH9uOZRq
How our planets were formed https://t.co/UcgqmhkhKt study https://t.co/s8atcOCPNL https://t.co/IveH9uOZRq
Also Lichtenberg et al (@tim_lichtenberg @AstroJoanna @TomHandsPhysics ) investigate the NC CC dichotomy and argue for pebble accretion after an initial NC planetesimal burst for the formation of the terrestrial embryos. https://t.co/8PlZXEKPZ5
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
@WhatDaMath Has the new solar planet formation paper popped up on your radar?
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
Did you ever wonder how the #planets of the #solarsystem came into existence? Investigating this, in a recent publication in @Science, (summarized here https://t.co/hmyr3cdYVR) scientists used mathematical models and recent astronomical observations.#STEM
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
太陽系の隕石の同位体の分析結果は、惑星形成のリザーバーが2つあったことを示唆している。従来のモデルでは木星が最初にできたことで2つに分かれたとされていたが、新たなモデルは水-氷境界が先にできたことを提案。Science https://t.co/cZEnbtBsOY
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
RT @ClimateBook: New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4E…
New paper on planet formation, led by Simons Fellow Tim Lichtenberg, a member of @ClimateBook group. https://t.co/W5Tld4EPIO . Video intro to work at https://t.co/biRRaJilSP , blog post at https://t.co/aTgw5ofBkD
"Measurements of meteorites have shown that the inner and outer Solar System formed from two distinct reservoirs of material…evidence demonstrates that planet formation occurred in two spatially and temporally separated reservoirs." https://t.co/Qaz9gxzwqV
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @ProfAbelMendez: Solar System formation in two steps | University of Oxford Department of Physics https://t.co/BEqQrhtEpo study https://…
RT @ProfAbelMendez: Solar System formation in two steps | University of Oxford Department of Physics https://t.co/BEqQrhtEpo study https://…
RT @ProfAbelMendez: Solar System formation in two steps | University of Oxford Department of Physics https://t.co/BEqQrhtEpo study https://…
RT @ProfAbelMendez: Solar System formation in two steps | University of Oxford Department of Physics https://t.co/BEqQrhtEpo study https://…
Solar System formation in two steps | University of Oxford Department of Physics https://t.co/BEqQrhtEpo study https://t.co/s8atcOCPNL https://t.co/x5qQLZlQiY
Bifurcation of planetary building blocks during Solar System formation https://t.co/f5tprSUijU
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
RT @tim_lichtenberg: Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It…
Hey all! Our paper on the formation of the Solar System was published today in Science: https://t.co/KLF7tqDSnL. 🙂 It was exciting to work on this project together with @AstroJoanna, @TomHandsPhysics, Maria Schönbächler, and Gregor Golabek. A thread. 1/ ht
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
The snowline in the solar system governed early planet formation @ScienceMagazine https://t.co/qCsUyjBRp4
RT @sraymond_astro: Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A…
A great precedent set by @tim_lichtenberg et al. today, a paper on arXiv (https://t.co/2Secboyquc) with an accompanying talk at https://t.co/9GJfs0qpVU !!
Pretty awesome new paper by @tim_lichtenberg, @AstroJoanna et al published in Science today: https://t.co/75AFrqpE8A It's all about when and where the planets' building blocks formed. Bonus: they made a really clear video explaining their results: https
RT @emulenews: #ScienceMagazine Bifurcation of planetary building blocks during Solar System formation https://t.co/zcIg0kLhZw planet forma…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
Solar system design: The snow line (distance from Sun where water vapor turns to ice) divides 2 separate populations of planetesimals & explains the differing planet formation histories for the inner and outer solar system. https://t.co/Zxf7I6d971
[2101.08571] Tim Lichtenberg, Joanna Drazkowska, Maria Schönbächler et al.: Bifurcation of planetary building blocks during Solar System formation https://t.co/cEGxSlRb1k https://t.co/uFnowewQM6 #astro_ph_EP
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
#ScienceMagazine Bifurcation of planetary building blocks during Solar System formation https://t.co/zcIg0kLhZw planet formation occurred in 2 spatially and temporally separated reservoirs. Migration of the water snow line generate two bursts of planetesim
Bifurcation of planetary building blocks during Solar System formation https://t.co/jjwMU2a7qs
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
RT @DrKeithSmith: The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how t…
The compositions of the inner and outer Solar System are different. @tim_lichtenberg et al. use simulations to show how this can be explained by migration of the water 'snow line' through the protoplanetary disc. https://t.co/svjYSFKZuV https://t.co/pqASns