Harvard team uses laser to cool polyatomic molecule

Harvard researchers become the first to cool a polyatomic molecule using light.

Juan Siliezar • harvard
Sept. 11, 2020 ~8 min

Tags: science-technology quantum faculty-of-arts-and-sciences john-doyle juan-siliezar caoch3 debayan-mitra doyle-research-group molecule-calcium-monomethoxide nathaniel-b-vilas

Harvard scientists use optical tweezers to capture ultracold molecules

Using precisely focused lasers that act as “optical tweezers,” Harvard scientists have been able to capture and control individual ultracold molecules – the eventual building-blocks of a quantum computer – and study the collisions between them in more detail than ever before.

Peter Reuell • harvard
Oct. 2, 2019 ~6 min

Tags:  science-technology  quantum  faculty-of-arts-and-sciences  fas  harvard  peter-reuell  reuell  science  john-doyle  doyle  quantum-computer  lasers  center-for-ultracold-atoms  kang-kuen-ni  molecular-tweezers  molecules  ni  optical-tweezers  quantum-science-and-engineering-initiative  tweezers  ultracold-atoms  ultracold-molecules

Student engineers an interaction between two qubits using photons

A Ph.D. student working in the lab of Professor Mikhail Lukin, co-director of the Quantum Science and Engineering Initiative, has demonstrated a method for engineering an interaction between two qubits using photons.

Peter Reuell • harvard
Nov. 30, 2018 ~6 min

Tags:  science-technology  quantum  quantum-computing  evans  graduate-school-of-arts-and-sciences  lukin  mikhail-lukin  quantum-bit  quantum-bits  quantum-computers  quantum-networking  ruffin-evans  science

Student engineers an interaction between two qubits using photons

A Ph.D. student working in the lab of Professor Mikhail Lukin, co-director of the Quantum Science and Engineering Initiative, has demonstrated a method for engineering an interaction between two qubits using photons.

Peter Reuell • harvard
Nov. 30, 2018 ~6 min

Tags:  science-technology  quantum  quantum-computing  evans  graduate-school-of-arts-and-sciences  lukin  mikhail-lukin  quantum-bit  quantum-bits  quantum-computers  quantum-networking  ruffin-evans  science

Harvard makes a quantum leap with new initiative

By pairing quantum science exploration with solution-driven quantum engineering the new Harvard Quantum Initiative, aims to raise the bar across higher education, industry, and government research to progress quantum science and engineering and educate the future workforce.

Mary Todd Bergman • harvard
Nov. 14, 2018 ~13 min

Tags:  science-technology  quantum  faculty-of-arts-and-sciences  and-mikhail-lukin  evelyn-hu  harvard-john-a-paulson-school-of-engineering  harvard-quantum-initiative  john-doyle  misha-lukin  quantum-engineering  quantum-science

Harvard makes a quantum leap with new initiative

By pairing quantum science exploration with solution-driven quantum engineering the new Harvard Quantum Initiative, aims to raise the bar across higher education, industry, and government research to progress quantum science and engineering and educate the future workforce.

Mary Todd Bergman • harvard
Nov. 14, 2018 ~13 min

Tags:  science-technology  quantum  faculty-of-arts-and-sciences  and-mikhail-lukin  evelyn-hu  harvard-john-a-paulson-school-of-engineering  harvard-quantum-initiative  john-doyle  misha-lukin  quantum-engineering  quantum-science

Harvard team helps make most precise measure ever of electron’s charge

Working in a basement lab at Harvard, a group of researchers led by John Doyle, the Henry B. Silsbee Professor of Physics, have been part of a team making the most precise measurement of the shape of the field around an electron. The results suggest that some theories for what lies beyond the standard model of physics need to return to the drawing board.

Peter Reuell • harvard
Oct. 29, 2018 ~7 min

Tags:  science-technology  quantum  physics  faculty-of-arts-and-sciences  fas  harvard  peter-reuell  reuell  john-doyle  acme  beyond-the-standard-model  charge  dipole  doyle  electron  electron-charge  electron-field  field  standard-model

Harvard team helps make most precise measure ever of electron’s charge

Working in a basement lab at Harvard, a group of researchers led by John Doyle, the Henry B. Silsbee Professor of Physics, have been part of a team making the most precise measurement of the shape of the field around an electron. The results suggest that some theories for what lies beyond the standard model of physics need to return to the drawing board.

Peter Reuell • harvard
Oct. 29, 2018 ~7 min

Tags:  science-technology  quantum  physics  faculty-of-arts-and-sciences  fas  harvard  peter-reuell  reuell  john-doyle  acme  beyond-the-standard-model  charge  dipole  doyle  electron  electron-charge  electron-field  field  standard-model

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