and nanomechanical resonators on an atom chip
and nanomechanical resonators on an atom chip
and nanomechanical resonators on an atom chip
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Qu<strong>an</strong>tum optics meets c<strong>on</strong>densed matter<br />
Qu<strong>an</strong>tum optical systems + c<strong>on</strong>densed matter c<strong>on</strong>cepts:<br />
Ultracold <strong>atom</strong>s in optical lattices:<br />
“artificial c<strong>on</strong>densed matter system”<br />
C<strong>on</strong>densed matter systems + qu<strong>an</strong>tum optical c<strong>on</strong>cepts:<br />
Superc<strong>on</strong>ducting circuits, qu<strong>an</strong>tum dots:<br />
“artificial <strong>atom</strong>s”<br />
Laser cooling of mech<strong>an</strong>ical oscillators<br />
Qu<strong>an</strong>tum optical systems + c<strong>on</strong>densed matter systems:<br />
Atom <strong>chip</strong>s provide <strong>an</strong> interface<br />
between ultracold <strong>atom</strong>s <str<strong>on</strong>g><strong>an</strong>d</str<strong>on</strong>g><br />
solid-state systems <strong>on</strong> a <strong>chip</strong>