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1 Cold molecules Mike Tarbutt LMI Lecture, 05/11/12.

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1 1 Cold molecules Mike Tarbutt LMI Lecture, 05/11/12

2 What’s different about molecules?  They can vibrate  They can rotate  They are easy to polarize  Electronic excitation: vis/uv  Vibrational excitation: ir (10  m typical)  Rotational excitation: microwave (1mm – 10cm typical)

3 Why are people excited about cold molecules? Quantum degenerate dipolar gases Controlling biomolecules +V -V Quantum information processing e Searches for new physics e  selectron C H O H H O Cold quantum chemistry

4 Using molecules to measure the electron’s electric dipole moment  Electron EDM is a test of time-reversal symmetry and a search for new physics  Measurements use electrons in atoms or molecules  Experimental sensitivity proportional to degree of polarization  Molecules are much easier to polarize than atoms  Experiments on YbF (Imperial), PbO (Yale), ThO (Yale\Harvard), PbF (Oklahoma), WC (Michigan)... Nature 473, 493 (2011)

5 Using molecules to search for time-varying fundamental constants  Lab-based measurements – need very high precision  Astro-measurements – need sources that are far away -Faraday Discussions 142, 25 (2009) - European Physical Journal Special Topics, 163, 55 (2008) - Phys. Rev. Lett. 96, 143004 (2006) - Phys. Rev. Lett. 96, 151101 (2006)

6 Quantum degenerate dipolar gases Polarized molecules interact strongly with one another via dipole-dipole interactions. In a quantum degenerate gas of molecules:  Physics governed by long-range anisotropic dipole-dipole interactions  Very different to atomic case (short range van der Waals interactions)  Electric field strength tunes the interaction strength  Explore the physics of strongly-correlated quantum matter  A lattice of polar molecules can be used as a quantum simulator Repulsive Attractive

7 7 Quantum information processing with molecules Can use microwave photons to manipulate the rotational states of molecules. Potential for coupling polar molecules to superconducting microwave stripline resonators – hybrid quantum processors! [Nature Physics 2, 636 (2006)] [Phys. Rev. Lett. 97, 033003 (2006)] e.g. Qubits based on rotational states. Microwave pulses for single qubit rotations. Phys. Rev. Lett. 88, 067901 (2002)

8 Two routes to cold molecules Start with cold atoms Bind them together Start with hot molecules Cool them down To find out more: come to my CDT lectures!

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