Webb measures temperature of rocky exoplanet for first time / Photo: © European Southern Observatory/AFP/File
RBGPF
0.5000
The Fort Worth Press - Webb measures temperature of rocky exoplanet for first time
USD
-
AED 3.672501
AFN 64.000277
ALL 81.450593
AMD 370.780098
ANG 1.789884
AOA 917.999818
ARS 1392.517902
AUD 1.38969
AWG 1.8
AZN 1.700271
BAM 1.669697
BBD 2.01454
BDT 122.725158
BGN 1.668102
BHD 0.37765
BIF 2976
BMD 1
BND 1.275896
BOB 6.911331
BRL 4.971198
BSD 1.000226
BTN 94.881811
BWP 13.592996
BYN 2.822528
BYR 19600
BZD 2.011629
CAD 1.360065
CDF 2319.99998
CHF 0.78252
CLF 0.022861
CLP 899.749689
CNY 6.82825
CNH 6.82169
COP 3657.25
CRC 454.73562
CUC 1
CUP 26.5
CVE 94.449567
CZK 20.803993
DJF 177.719822
DKK 6.37653
DOP 59.499215
DZD 132.317985
EGP 53.450098
ERN 15
ETB 156.999891
EUR 0.85329
FJD 2.19305
FKP 0.736618
GBP 0.737345
GEL 2.679646
GGP 0.736618
GHS 11.19968
GIP 0.736618
GMD 73.000359
GNF 8774.999738
GTQ 7.641507
GYD 209.25239
HKD 7.83376
HNL 26.619522
HRK 6.428601
HTG 131.024649
HUF 309.894503
IDR 17397
ILS 2.95145
IMP 0.736618
INR 94.97625
IQD 1310
IRR 1314000.000114
ISK 122.710185
JEP 0.736618
JMD 156.725146
JOD 0.708977
JPY 156.965502
KES 129.204454
KGS 87.420505
KHR 4012.507578
KMF 420.000244
KPW 899.999976
KRW 1469.629951
KWD 0.30804
KYD 0.833543
KZT 463.288124
LAK 21980.000453
LBP 89550.000068
LKR 319.671116
LRD 183.875007
LSL 16.659954
LTL 2.95274
LVL 0.60489
LYD 6.35025
MAD 9.25125
MDL 17.233504
MGA 4149.999876
MKD 52.591161
MMK 2099.490131
MNT 3577.850535
MOP 8.070846
MRU 39.969751
MUR 46.760223
MVR 15.454983
MWK 1741.498941
MXN 17.46795
MYR 3.952984
MZN 63.899676
NAD 16.660556
NGN 1374.139788
NIO 36.710023
NOK 9.26374
NPR 151.803598
NZD 1.694725
OMR 0.384495
PAB 1.000201
PEN 3.507504
PGK 4.33875
PHP 61.654495
PKR 278.774976
PLN 3.629635
PYG 6151.626275
QAR 3.643499
RON 4.435795
RSD 100.193938
RUB 75.001642
RWF 1461.5
SAR 3.74998
SBD 8.04211
SCR 13.857231
SDG 600.499356
SEK 9.241835
SGD 1.27456
SHP 0.746601
SLE 24.600215
SLL 20969.496166
SOS 571.000396
SRD 37.458037
STD 20697.981008
STN 21.21
SVC 8.7523
SYP 110.524981
SZL 16.660308
THB 32.528959
TJS 9.381822
TMT 3.505
TND 2.88175
TOP 2.40776
TRY 45.198904
TTD 6.789386
TWD 31.607979
TZS 2610.00021
UAH 43.949336
UGX 3760.987334
UYU 39.889518
UZS 11950.000297
VES 488.942755
VND 26338.5
VUV 117.651389
WST 2.715189
XAF 560.041494
XAG 0.01344
XAU 0.000218
XCD 2.70255
XCG 1.80265
XDR 0.69563
XOF 560.000046
XPF 102.149675
YER 238.599549
ZAR 16.63185
ZMK 9001.190721
ZMW 18.67895
ZWL 321.999592
- French starlet Seixas to ride Tour de France in July
- Cruise ship operator says Dutch to repatriate two ill passengers
- Iran warns will attack US forces in Hormuz after Trump announces escort plan
- India's Modi eyes win in opposition-held West Bengal
- In Wales, UK Labour Party loses grip on storied heartland
- Musk vs OpenAI trial enters second week
- India's Modi faces key test as vote count underway
- Japan PM says oil crisis has 'enormous impact' in Asia-Pacific
- Badminton no.1 An brings 'fire' as South Korea win Uber Cup
- Saka sparks Arsenal attack into life ahead of Atletico showdown
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.
K.Ibarra--TFWP
