Please double-click on the English subtitles below to play the video.
00:06
The coldest materials in the world
aren’t in Antarctica.
0
6716
3681
00:10
They’re not at the top of Mount Everest
1
10397
2124
00:12
or buried in a glacier.
2
12521
1855
00:14
They’re in physics labs:
3
14376
1521
00:15
clouds of gases held just fractions
of a degree above absolute zero.
4
15897
4485
00:20
That’s 395 million times colder
than your refrigerator,
5
20382
4985
00:25
100 million times colder
than liquid nitrogen,
6
25367
2706
00:28
and 4 million times colder
than outer space.
7
28073
3167
00:31
Temperatures this low give scientists a
window into the inner workings of matter,
8
31240
4661
00:35
and allow engineers to build
incredibly sensitive instruments
9
35901
3536
00:39
that tell us more about everything
10
39437
1855
00:41
from our exact position on the planet
11
41292
1838
00:43
to what’s happening in
the farthest reaches of the universe.
12
43130
3005
00:46
How do we create such
extreme temperatures?
13
46135
2793
00:48
In short, by slowing down
moving particles.
14
48928
3061
00:51
When we’re talking about temperature,
what we’re really talking about is motion.
15
51989
3962
00:55
The atoms that make up solids,
16
55951
1765
00:57
liquids,
17
57716
742
00:58
and gases
18
58458
880
00:59
are moving all the time.
19
59338
1531
01:00
When atoms are moving more rapidly,
we perceive that matter as hot.
20
60869
4747
01:05
When they’re moving more
slowly, we perceive it as cold.
21
65616
3531
01:09
To make a hot object
or gas cold in everyday life,
22
69147
3416
01:12
we place it in a colder environment,
like a refrigerator.
23
72563
3397
01:15
Some of the atomic motion in the hot
object is transferred to the surroundings,
24
75960
4538
01:20
and it cools down.
25
80498
1753
01:22
But there’s a limit to this:
26
82251
1537
01:23
even outer space is too warm
to create ultra-low temperatures.
27
83788
4077
01:27
So instead, scientists figured out a way
to slow the atoms down directly –
28
87865
4958
01:32
with a laser beam.
29
92823
1381
01:34
Under most circumstances,
30
94204
1547
01:35
the energy in a laser beam
heats things up.
31
95751
2713
01:38
But used in a very precise way,
32
98464
2069
01:40
the beam’s momentum can stall
moving atoms, cooling them down.
33
100533
4280
01:44
That’s what happens in a device
called a magneto-optical trap.
34
104813
4590
01:49
Atoms are injected into a vacuum chamber,
35
109403
2551
01:51
and a magnetic field
draws them towards the center.
36
111954
3461
01:55
A laser beam aimed
at the middle of the chamber
37
115415
2675
01:58
is tuned to just the right frequency
38
118090
2533
02:00
that an atom moving towards it will absorb
a photon of the laser beam and slow down.
39
120623
5547
02:06
The slow down effect comes from
the transfer of momentum
40
126170
2919
02:09
between the atom and the photon.
41
129089
2019
02:11
A total of six beams,
in a perpendicular arrangement,
42
131108
3100
02:14
ensure that atoms traveling
in all directions will be intercepted.
43
134208
4167
02:18
At the center, where the beams intersect,
44
138375
2643
02:21
the atoms move sluggishly,
as if trapped in a thick liquid —
45
141018
3822
02:24
an effect the researchers who invented it
described as “optical molasses.”
46
144840
5084
02:29
A magneto-optical trap like this
47
149924
2391
02:32
can cool atoms down
to just a few microkelvins —
48
152315
3090
02:35
about -273 degrees Celsius.
49
155405
3380
02:38
This technique was developed in the 1980s,
50
158785
2824
02:41
and the scientists
who'd contributed to it
51
161609
2304
02:43
won the Nobel Prize in Physics in 1997
for the discovery.
52
163913
4018
02:47
Since then, laser cooling has been
improved to reach even lower temperatures.
53
167931
4820
02:52
But why would you want
to cool atoms down that much?
54
172751
3239
02:55
First of all, cold atoms can make
very good detectors.
55
175990
3796
02:59
With so little energy,
56
179786
1744
03:01
they’re incredibly sensitive
to fluctuations in the environment.
57
181530
3431
03:04
So they’re used in devices that find
underground oil and mineral deposits,
58
184961
4601
03:09
and they also make
highly accurate atomic clocks,
59
189562
2641
03:12
like the ones used
in global positioning satellites.
60
192203
2890
03:15
Secondly, cold atoms hold
enormous potential
61
195093
3059
03:18
for probing the frontiers of physics.
62
198152
2091
03:20
Their extreme sensitivity
makes them candidates
63
200243
2419
03:22
to be used to detect gravitational waves
in future space-based detectors.
64
202662
4638
03:27
They’re also useful for the study
of atomic and subatomic phenomena,
65
207300
4324
03:31
which requires measuring incredibly
tiny fluctuations in the energy of atoms.
66
211624
4270
03:35
Those are drowned out
at normal temperatures,
67
215894
2152
03:38
when atoms speed around
at hundreds of meters per second.
68
218046
3044
03:41
Laser cooling can slow atoms to just
a few centimeters per second—
69
221090
4175
03:45
enough for the motion caused by
atomic quantum effects to become obvious.
70
225265
3857
03:49
Ultracold atoms have already
allowed scientists to study phenomena
71
229122
4477
03:53
like Bose-Einstein condensation,
72
233599
2551
03:56
in which atoms are cooled almost
to absolute zero
73
236150
3481
03:59
and become a rare new state of matter.
74
239631
2569
04:02
So as researchers continue in their quest
to understand the laws of physics
75
242200
3591
04:05
and unravel the mysteries of the universe,
76
245791
2134
04:07
they’ll do so with the help
of the very coldest atoms in it.
77
247925
4236
New videos
About this website
This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.