Webb measures temperature of rocky exoplanet for first time / Photo: HO - European Southern Observatory/AFP/File
RBGPF
0.0000
The Prague Post - Webb measures temperature of rocky exoplanet for first time
EUR
-
AED 4.305347
AFN 79.559727
ALL 96.963528
AMD 446.498005
ANG 2.098197
AOA 1075.01721
ARS 1679.640926
AUD 1.761827
AWG 2.113106
AZN 1.996083
BAM 1.954049
BBD 2.351013
BDT 142.052712
BGN 1.955153
BHD 0.442
BIF 3483.423204
BMD 1.17232
BND 1.500175
BOB 8.065773
BRL 6.317744
BSD 1.167259
BTN 103.209078
BWP 15.642184
BYN 3.951393
BYR 22977.462745
BZD 2.347616
CAD 1.622584
CDF 3362.796186
CHF 0.933874
CLF 0.028443
CLP 1115.815875
CNY 8.345333
CNH 8.346335
COP 4570.873839
CRC 588.380303
CUC 1.17232
CUP 31.066467
CVE 110.165815
CZK 24.349893
DJF 207.865513
DKK 7.464557
DOP 74.39429
DZD 152.089692
EGP 56.532061
ERN 17.584793
ETB 167.601763
FJD 2.622715
FKP 0.864159
GBP 0.865131
GEL 3.153737
GGP 0.864159
GHS 14.240179
GIP 0.864159
GMD 83.815974
GNF 10124.057745
GTQ 8.941949
GYD 244.211171
HKD 9.123107
HNL 30.576992
HRK 7.530393
HTG 152.854988
HUF 391.698328
IDR 19216.6617
ILS 3.901433
IMP 0.864159
INR 103.55743
IQD 1529.155868
IRR 49325.344045
ISK 143.199042
JEP 0.864159
JMD 186.894922
JOD 0.831205
JPY 172.819835
KES 151.041355
KGS 102.519862
KHR 4678.867307
KMF 491.794784
KPW 1055.030237
KRW 1628.556981
KWD 0.35798
KYD 0.972745
KZT 629.306837
LAK 25310.751777
LBP 104528.290244
LKR 352.290336
LRD 214.197152
LSL 20.486056
LTL 3.461555
LVL 0.709124
LYD 6.316394
MAD 10.539856
MDL 19.394539
MGA 5195.41106
MKD 61.484906
MMK 2460.780139
MNT 4216.647854
MOP 9.365668
MRU 46.387028
MUR 53.316745
MVR 18.059571
MWK 2024.112167
MXN 21.668571
MYR 4.933704
MZN 74.909984
NAD 20.486492
NGN 1760.026758
NIO 42.952062
NOK 11.575448
NPR 165.13714
NZD 1.965417
OMR 0.450759
PAB 1.167254
PEN 4.06176
PGK 4.94763
PHP 66.941764
PKR 331.335915
PLN 4.254121
PYG 8361.578823
QAR 4.254769
RON 5.070752
RSD 117.159226
RUB 99.060583
RWF 1691.406035
SAR 4.398103
SBD 9.64089
SCR 17.658014
SDG 705.153148
SEK 10.929013
SGD 1.503119
SHP 0.921259
SLE 27.414712
SLL 24582.951959
SOS 667.110762
SRD 46.626078
STD 24264.647322
STN 24.478379
SVC 10.214022
SYP 15242.360774
SZL 20.476913
THB 37.126775
TJS 11.071432
TMT 4.103118
TND 3.406633
TOP 2.74569
TRY 48.498738
TTD 7.928031
TWD 35.460908
TZS 2883.906138
UAH 48.246186
UGX 4097.328535
USD 1.17232
UYU 46.717939
UZS 14428.071538
VES 184.677336
VND 30935.1677
VUV 140.001741
WST 3.114758
XAF 655.378126
XAG 0.027862
XAU 0.000321
XCD 3.168252
XCG 2.103751
XDR 0.81508
XOF 655.375333
XPF 119.331742
YER 280.910761
ZAR 20.387991
ZMK 10552.276585
ZMW 27.810317
ZWL 377.48641
- Stocks rally into weekend with US rate cut 'seemingly locked in'
- Springboks, Pumas out to keep Rugby Championship hopes alive
- Scrutiny on Thai zoo grows after lion attack
- UK economy stalls in July
- Charlie Kirk's killing: what we know
- S. Korean workers arrive home after US detention
- US tariffs deal stokes 'monster' pick-up fears in Europe
- Saint Lucia's Alfred says Olympic gold shows talent counts, not your passport
- Springboks hard man Wiese to take the All Blacks head-on
- Tinch's journey to be hurdles title contender sparked by stepdad's joke
Webb measures temperature of rocky exoplanet for first time
The James Webb Space Telescope has measured the temperature of a rocky exoplanet for the first time, finding that a "cousin" of Earth most likely lacks an atmosphere, researchers said Monday.
When the Trappist-1 system was discovered in 2017, astronomers were excited at the prospect that some of its seven rocky planets -- which are roughly similar to Earth in size and mass -- could be habitable.
Just 40 light years from Earth, the planets orbit much closer to their ultracool red dwarf star than the rocky planets in our Solar System. But their star gives off far less energy than our Sun.
The system made an obvious target for the piercing gaze of the Webb telescope, which has unleashed a torrent of scientific discovery since releasing its first observations in July last year.
Astronomers focused on Trappist-1b, the closest planet to the red dwarf, because it was the easiest to spot.
Webb's Mid-Infrared Instrument (MIRI) measured the change in brightness when the planet moved behind its star, in what is known as a secondary eclipse.
"Just before disappearing behind the star, the planet gives off the most light because it almost exclusively shows its 'day' side," Elsa Ducrot, a co-author of a new study published in the journal Nature, told AFP.
By subtracting the brightness of the star, the researchers calculated how much infrared light the planet was giving off.
The MIRI instrument was therefore able to act like "a giant touch-free thermometer," NASA said in a statement.
- 'Perfect for baking pizza' -
The planet's dayside temperature was determined to be 230 degrees Celsius (450 Fahrenheit) -- "just about perfect for baking pizza," NASA added.
France's Atomic Energy Commission (CEA) said that the heat was not redistributed throughout this "cousin" of Earth, a role normally provided by an atmosphere.
The scientists therefore concluded that Trappist-1b "has little or no atmosphere," said Ducrot, a CEA astrophysicist. She emphasised that other wavelengths would need to be analysed to confirm the result.
But it was certain that the atmosphere did not contain carbon dioxide, because that would have absorbed some of the light, she added.
The Spitzer Space Telescope was not able to rule out an atmosphere on Trappist-1b despite observing 28 secondary eclipses, Ducrot said.
"The James Webb saw it in a single eclipse!"
The ability to analyse the potential atmospheres of such rocky exoplanets opens "a new era" in the study of planets outside our Solar System, she added.
It was already known that Trappist-1b was uninhabitable, as it is too close to its star.
But Trappist-1e, Trappist-1f and Trappist-1g are all thought to be in what is called the "goldilocks zone".
Planets in this zone have a moderate temperature which could support liquid water -- considered essential for life anywhere.
T.Kolar--TPP
