Japanese experimental nuclear fusion reactor inaugurated / Photo: Handout - National Institutes for Quantum Science and Technology (QST)/AFP
RBGPF
0.8100
The Prague Post - Japanese experimental nuclear fusion reactor inaugurated
EUR
-
AED 4.105252
AFN 78.797051
ALL 98.893319
AMD 433.749643
ANG 2.00029
AOA 1024.357672
ARS 1257.401991
AUD 1.726388
AWG 2.014619
AZN 1.894575
BAM 1.967649
BBD 2.255714
BDT 135.737404
BGN 1.958856
BHD 0.421283
BIF 3281.510303
BMD 1.117681
BND 1.458201
BOB 7.719591
BRL 6.272418
BSD 1.117243
BTN 95.296148
BWP 15.251571
BYN 3.656166
BYR 21906.540172
BZD 2.244124
CAD 1.559656
CDF 3208.861365
CHF 0.940199
CLF 0.027393
CLP 1051.159719
CNY 8.054398
CNH 8.044461
COP 4708.620804
CRC 567.726442
CUC 1.117681
CUP 29.618536
CVE 110.790095
CZK 24.942161
DJF 198.633856
DKK 7.459515
DOP 65.829876
DZD 149.154865
EGP 56.405322
ERN 16.765209
ETB 148.552518
FJD 2.528748
FKP 0.847332
GBP 0.84049
GEL 3.068057
GGP 0.847332
GHS 14.222485
GIP 0.847332
GMD 80.472573
GNF 9673.526071
GTQ 8.589727
GYD 233.733349
HKD 8.714585
HNL 29.051336
HRK 7.534623
HTG 146.071597
HUF 404.018956
IDR 18575.851922
ILS 3.973953
IMP 0.847332
INR 95.126524
IQD 1463.532969
IRR 47054.354819
ISK 145.667499
JEP 0.847332
JMD 177.981798
JOD 0.792767
JPY 165.002627
KES 144.744858
KGS 97.741511
KHR 4488.605618
KMF 492.340141
KPW 1005.907529
KRW 1580.819534
KWD 0.343385
KYD 0.93099
KZT 567.877027
LAK 24164.25501
LBP 100101.550337
LKR 333.870553
LRD 223.436524
LSL 20.473189
LTL 3.300221
LVL 0.676074
LYD 6.13595
MAD 10.421659
MDL 19.528249
MGA 5050.436086
MKD 61.542104
MMK 2346.553122
MNT 3994.476518
MOP 8.967945
MRU 44.27462
MUR 51.893802
MVR 17.214206
MWK 1937.392892
MXN 21.713176
MYR 4.831172
MZN 71.421162
NAD 20.473465
NGN 1791.004651
NIO 41.107548
NOK 11.577662
NPR 152.468749
NZD 1.882346
OMR 0.430293
PAB 1.117208
PEN 4.084497
PGK 4.639942
PHP 62.334189
PKR 314.600711
PLN 4.233858
PYG 8921.846685
QAR 4.072177
RON 5.103445
RSD 117.931762
RUB 89.254777
RWF 1599.805326
SAR 4.191965
SBD 9.333582
SCR 15.894298
SDG 671.167312
SEK 10.873809
SGD 1.454963
SHP 0.878321
SLE 25.427268
SLL 23437.204022
SOS 638.430318
SRD 40.796462
STD 23133.732267
SVC 9.776002
SYP 14533.551955
SZL 20.467345
THB 37.151287
TJS 11.585057
TMT 3.911882
TND 3.379307
TOP 2.617718
TRY 43.365527
TTD 7.581691
TWD 34.016599
TZS 3003.767623
UAH 46.42962
UGX 4088.676695
USD 1.117681
UYU 46.66099
UZS 14406.756824
VES 103.625748
VND 29016.665443
VUV 134.091698
WST 3.105526
XAF 659.919194
XAG 0.033979
XAU 0.000344
XCD 3.020588
XDR 0.82109
XOF 659.939985
XPF 119.331742
YER 273.217081
ZAR 20.499279
ZMK 10060.468697
ZMW 29.605681
ZWL 359.892704
- UN relief chief urges action 'to prevent genocide' in Gaza
- Baseball pariahs Rose, Jackson eligible for Hall of Fame after league ruling
- Scheffler excited for 1-2-3 group with McIlroy, Schauffele
- Sean Combs's ex Cassie says he forced her into 'disgusting' sex ordeals
- Uruguay's 'poorest president' Mujica dies aged 89
- Senior UN official urges action 'to prevent genocide' in Gaza
- 'Kramer vs Kramer' director Robert Benton dies: report
- Sinner moves through gears to reach Italian Open quarters
- Massages, chefs and trainers: Airbnb adds in-home services
- Republicans eye key votes on Trump tax cuts mega-bill
Japanese experimental nuclear fusion reactor inaugurated
The world's biggest experimental nuclear fusion reactor in operation was inaugurated in Japan on Friday, a technology in its infancy but billed by some as the answer to humanity's future energy needs.
Fusion differs from fission, the technique currently used in nuclear power plants, by fusing two atomic nuclei instead of splitting one.
The goal of the JT-60SA reactor is to investigate the feasibility of fusion as a safe, large-scale and carbon-free source of net energy -- with more energy generated than is put into producing it.
The six-storey-high machine, in a hangar in Naka north of Tokyo, comprises a donut-shaped "tokamak" vessel set to contain swirling plasma heated up 200 million degrees Celsius (360 million degrees Fahrenheit).
It is a joint project between the European Union and Japan, and is the forerunner for its big brother in France, the under-construction International Thermonuclear Experimental Reactor (ITER).
The ultimate aim of both projects is to coax hydrogen nuclei inside to fuse into one heavier element, helium, releasing energy in the form of light and heat, and mimicking the process that takes place inside the Sun.
Researchers at ITER, which is over budget, behind schedule and facing major technical problems, hope to achieve nuclear fusion technology's holy grail, net energy.
Sam Davis, deputy project leader for the JT-60SA, said the device will "bring us closer to fusion energy".
"It's the result of a collaboration between more than 500 scientists and engineers and more than 70 companies throughout Europe and Japan," Davis said at Friday's inauguration.
EU energy commissioner Kadri Simson said the JT-60SA was "the most advanced tokamak in the world", calling the start of operations "a milestone for fusion history".
"Fusion has the potential to become a key component for energy mix in the second half of this century," Simson added.
The feat of "net energy gain" was managed last December at the National Ignition Facility at Lawrence Livermore National Laboratory in the United States, home to the world's largest laser.
The US facility uses a different method to ITER and the JT-60SA known as inertial confinement fusion, in which high-energy lasers are directed simultaneously into a thimble-sized cylinder containing hydrogen.
The US government called the result a "landmark achievement" in the quest for a source of unlimited, clean power and an end to reliance on carbon-emitting fossil fuels that cause climate change as well as geopolitical upheaval.
Unlike fission, fusion carries no risk of catastrophic nuclear accidents -- like that seen in Fukushima in Japan in 2011 -- and produces far less radioactive waste than current power plants, its exponents say.
P.Benes--TPP
