Max-Planck-Institut für Quantenoptik, Hans-Kopfermann-Strasse 1, 85748 Garching, Germany.
Science. 2017 Nov 3;358(6363):645-648. doi: 10.1126/science.aan3029. Epub 2017 Oct 12.
Ultracold molecules represent a fascinating research frontier in physics and chemistry, but it has proven challenging to prepare dense samples at low velocities. Here, we present a solution to this goal by means of a nonconventional approach dubbed cryofuge. It uses centrifugal force to bring cryogenically cooled molecules to kinetic energies below 1 K × in the laboratory frame, where is the Boltzmann constant, with corresponding fluxes exceeding 10 per second at velocities below 20 meters per second. By attaining densities higher than 10 per cubic centimeter and interaction times longer than 25 milliseconds in samples of fluoromethane as well as deuterated ammonia, we observed cold dipolar collisions between molecules and determined their collision cross sections.
超冷分子代表了物理学和化学领域令人着迷的研究前沿,但在低速度下制备高密度样品一直具有挑战性。在这里,我们通过一种称为冷冻离心机的非传统方法来实现这一目标。它利用离心力将低温冷却的分子带到实验室框架下的动能低于 1 K × ,其中 是玻尔兹曼常数,对应的通量超过每秒 10 次,速度低于 20 米每秒。通过在氟甲烷和氘代氨样品中达到高于每立方厘米 10 倍的密度和超过 25 毫秒的相互作用时间,我们观察到分子之间的冷偶极碰撞,并确定了它们的碰撞截面。
