Cold Molecules

Atom-Molecule Cold Collisions

Cold collisions of O2 with helium
[1]
J. L. Bohn, Physical Review A 62, (2000).
Molecular spin relaxation in cold atom-molecule scattering
[1]
J. L. Bohn, Physical Review A 61, (2000).
Magnetic-field effects in ultracold molecular collisions
[1]
A. . Volpi and J. L. Bohn, Physical Review A 65, (2002).
Molecular vibration in cold-collision theory
[1]
A. . Volpi and J. L. Bohn, Physical Review A 65, (2002).
Fine-structure effects in vibrational relaxation at ultralow temperatures
[1]
A. . Volpi and J. L. Bohn, The Journal of Chemical Physics 119, (2003).
Ultracold Rb-OH Collisions and Prospects for Sympathetic Cooling
[1]
M. . Lara, J. L. Bohn, D. E. Potter, P. . Soldán, and J. M. Hutson, Physical Review Letters 97, (2006).
Cold collisions between OH and Rb: The field-free case
[1]
M. . Lara, J. L. Bohn, D. E. Potter, P. . Soldán, and J. M. Hutson, Physical Review A 75, (2007).
Statistical aspects of ultracold resonant scattering
[1]
M. . Mayle, B. P. Ruzic, and J. L. Bohn, Physical Review A 85, (2012).
Long-lived complexes and chaos in ultracold molecular collisions
[1]
J. F. E. Croft and J. L. Bohn, Physical Review A 89, (2014).

Molecule-Molecule Cold Collisions - General Considerations

Inelastic collisions of ultracold polar molecules
[1]
J. L. Bohn, Physical Review A 63, (2001).
Quasi-universal dipolar scattering in cold and ultracold gases
[1]
J. L. Bohn, M. J. Cavagnero, and C. C. Ticknor, New Journal of Physics 11, (2009).
Differential scattering and rethermalization in ultracold dipolar gases
[1]
J. L. Bohn and D. S. Jin, Physical Review A 89, (2014).
A unified model of ultracold molecular collisions
[1]
J. F. E. Croft, J. L. Bohn, and G. . Quéméner, Physical Review A 102, (2020).

Molecule-Molecule Cold Collisions - Non-alkali Division

Ultracold collisions of oxygen molecules
[1]
A. V. Avdeenkov and J. L. Bohn, Physical Review A 64, (2001).
Collisional dynamics of ultracold OH molecules in an electrostatic field
[1]
A. V. Avdeenkov and J. L. Bohn, Physical Review A 66, (2002).
Rotational Feshbach Resonances in Ultracold Molecular Collisions
[1]
J. L. Bohn, A. V. Avdeenkov, and M. P. Deskevich, Physical Review Letters 89, (2002).
Field-linked states of ultracold polar molecules
[1]
A. V. Avdeenkov, D. C. E. Bortolotti, and J. L. Bohn, Physical Review A 69, (2004).
Electric Field Spectroscopy of Ultracold Polar Molecular Dimers
[1]
J. L. Bohn, in Unknown (World Scientific Publishing Co. Pte. Ltd., Aviemore, Scotland UKSingapore, 2005), pp. 207–212.
Production of cold formaldehyde molecules for study and control of chemical reaction dynamics with hydroxyl radicals
[1]
E. R. Hudson, C. C. Ticknor, B. C. Sawyer, C. A. Taatjes, H. J. Lewandowski, J. R. Bochinski, J. L. Bohn, and J. . Ye, Physical Review A 73, (2006).
Chemical pathways in ultracold reactions of SrF molecules
[1]
E. R. Meyer and J. L. Bohn, Physical Review A 83, (2011).
Evaporative cooling of the dipolar hydroxyl radical
[1]
B. K. Stuhl, M. T. Hummon, M. . Yeo, G. . Quéméner, J. L. Bohn, and J. . Ye, Nature 492, (2012).
Multichannel quantum defect theory for rovibrational transitions in ultracold molecule-molecule collisions
[1]
J. . Hazra, B. P. Ruzic, N. . Balakrishnan, and J. L. Bohn, Physical Review A 90, (2014).
Quantum defect theory for cold chemistry with product-quantum-state resolution
[1]
J. . Hazra, B. P. Ruzic, J. L. Bohn, and N. . Balakrishnan, Physical Review A 90, (2014).
Shielding Σ2 ultracold dipolar molecular collisions with electric fields
[1]
G. . Quéméner and J. L. Bohn, Physical Review A 93, (2016).
No evaporative cooling of nitric oxide in its ground state
[1]
L. D. Augustovičová and J. L. Bohn, Physical Review A 96, (2017).
NO evaporative cooling in the <sup>2</sup>π</sub>3/2</sub> state
[1]
L. D. Augustovičová and J. L. Bohn, Physical Review A 97, (2018).
Influence of magnetic fields on cold collisions of polar molecules
[1]
C. C. Ticknor and J. L. Bohn, Physical Review A 71, (2005).
Ultracold collisions of fermionic OD radicals
[1]
A. V. Avdeenkov and J. L. Bohn, Phys. Rev. A 71, (2005).
Ultracold collisions of the lithium monoxide radical
[1]
L. D. Augustovičová and J. L. Bohn, Physical Review A 102, (2020).

Trapping and Spectroscopy

Candidate molecular ions for an electron electric dipole moment experiment
[1]
E. R. Meyer, J. L. Bohn, and M. P. Deskevich, Physical Review A 73, (2006).
OH hyperfine ground state: From precision measurement to molecular qubits
[1]
B. L. Lev, E. R. Meyer, E. R. Hudson, B. C. Sawyer, J. L. Bohn, and J. . Ye, Physical Review A 74, (2006).
Magnetoelectrostatic Trapping of Ground State OH Molecules
[1]
B. C. Sawyer, B. L. Lev, E. R. Hudson, B. K. Stuhl, M. . Lara, J. L. Bohn, and J. . Ye, Physical Review Letters 98, (2007).
Loss of molecules in magneto-electrostatic traps due to nonadiabatic transitions
[1]
M. . Lara, B. L. Lev, and J. L. Bohn, Physical Review A 78, (2008).
Prospects for an electron electric-dipole moment search in metastable ThO and ThF+
[1]
E. R. Meyer and J. L. Bohn, Physical Review A 78, (2008).
Berry-like phases in structured atoms and molecules
[1]
E. R. Meyer, A. E. Leanhardt, E. A. Cornell, and J. L. Bohn, Physical Review A 80, (2009).
An electron electric dipole moment search in the X3 Δ1 ground state of tungsten carbide molecules
[1]
J. . Lee, E. R. Meyer, R. . Paudel, J. L. Bohn, and A. E. Leanhardt, Journal of Modern Optics 56, (2009).
Electron electric-dipole-moment searches based on alkali-metal- or alkaline-earth-metal-bearing molecules
[1]
E. R. Meyer and J. L. Bohn, Physical Review A 80, (2009).
Controlling the Hyperfine State of Rovibronic Ground-State Polar Molecules
[1]
S. . Ospelkaus, K.-K. . Ni, G. . Quéméner, B. . Neyenhuis, D. . Wang, M. H. G. de Miranda, J. L. Bohn, J. . Ye, and D. S. Jin, Physical Review Letters 104, (2010).
High-resolution spectroscopy on trapped molecular ions in rotating electric fields: A new approach for measuring the electron electric dipole moment
[1]
A. E. Leanhardt, J. L. Bohn, H. . Loh, P. . Maletinsky, E. R. Meyer, L. C. Sinclair, R. P. Stutz, and E. A. Cornell, Journal of Molecular Spectroscopy 270, (2011).
Dipolar radicals in crossed electric and magnetic fields
[1]
J. L. Bohn and G. . Quéméner, Molecular Physics 111, (2013).
Precision Spectroscopy of Polarized Molecules in an Ion Trap
[1]
H. . Loh, K. C. Cossel, M. . Grau, K.-K. . Ni, E. R. Meyer, J. L. Bohn, J. . Ye, and E. A. Cornell, Science 342, (2013).
Radio-frequency spectrum of the Feshbach molecular state to deeply bound molecular states in ultracold 40K Fermi gases
[1]
L. . Huang, P. . Wang, B. P. Ruzic, Z. . Fu, Z. . Meng, P. . Peng, J. L. Bohn, and J. . Zhang, New Journal of Physics 17, (2015).

Molecule-Molecule Cold Collisions - Alkali division

Suppression of inelastic collisions of polar 1Σ state molecules in an electrostatic field
[1]
A. V. Avdeenkov, M. . Kajita, and J. L. Bohn, Physical Review A 73, (2006).
Dipolar collisions of polar molecules in the quantum regime
[1]
K.-K. . Ni, S. . Ospelkaus, D. . Wang, G. . Quéméner, B. . Neyenhuis, M. H. G. de Miranda, J. L. Bohn, J. . Ye, and D. S. Jin, Nature 464, (2010).
Electric field suppression of ultracold confined chemical reactions
[1]
G. . Quéméner and J. L. Bohn, Physical Review A 81, (2010).
Product-state control of bi-alkali-metal chemical reactions
[1]
E. R. Meyer and J. L. Bohn, Physical Review A 82, (2010).
Quantum-State Controlled Chemical Reactions of Ultracold Potassium-Rubidium Molecules
[1]
S. . Ospelkaus, K.-K. . Ni, D. . Wang, M. H. G. de Miranda, B. . Neyenhuis, G. . Quéméner, P. S. Julienne, J. L. Bohn, D. S. Jin, and J. . Ye, Science 327, (2010).
Simple quantum model of ultracold polar molecule collisions
[1]
Z. . Idziaszek, G. . Quéméner, J. L. Bohn, and P. S. Julienne, Physical Review A 82, (2010).
Strong dependence of ultracold chemical rates on electric dipole moments
[1]
G. . Quéméner and J. L. Bohn, Physical Review A 81, (2010).
Controlling the quantum stereodynamics of ultracold bimolecular reactions
[1]
M. H. G. de Miranda, A. . Chotia, B. . Neyenhuis, D. . Wang, G. . Quéméner, S. . Ospelkaus, J. L. Bohn, J. . Ye, and D. S. Jin, Nature Physics 7, (2011).
Dynamics of ultracold molecules in confined geometry and electric field
[1]
G. . Quéméner and J. L. Bohn, Physical Review A 83, (2011).
Universalities in ultracold reactions of alkali-metal polar molecules
[1]
G. . Quéméner, J. L. Bohn, A. N. Petrov, and S. . Kotochigova, Physical Review A 84, (2011).
Scattering of ultracold molecules in the highly resonant regime
[1]
M. . Mayle, G. . Quéméner, B. P. Ruzic, and J. L. Bohn, Physical Review A 87, (2013).
Long-range scattering resonances in strong-field-seeking states of polar molecules
[1]
C. C. Ticknor and J. L. Bohn, Physical Review A 72, (2005).

General Research

Cold molecules: Progress in quantum engineering of chemistry and quantum matter
[1]
J. L. Bohn, A. M. . Rey, and J. . Ye, Science 357, (2017).

Molecule-Molecule Cold Collisions - Polyatomics

Ultracold collisions of polyatomic molecules: CaOH
[1]
L. D. Augustovičová and J. L. Bohn, New Journal of Physics 21, (2019).