NICOP - Study of the non-equilibrium magnetic properties of individual molecules for quantum information
Abstract
Duringthelastyearsseveralworkshaveaddressedthemagnetizationpropertiesofmoleculesformagneticmemories,quantummetrologyandquantuminformationapplications.Mostofthemhavefocusedontheequilibriummagneticpropertiesasafunctionoftemperatureandfordifferentmolecularcomplexes,howevertheirnon-?????equilibriumdynamicssuchasspinrelaxationisofmajorimportanceforenablingapplicationsinquantummetrologyandquantuminformation.Hereweproposedaresearchplantostudythenon-?????equilibriumdynamicsofparamagneticandferromagneticmolecules.Weproposetoexplorethemagnetizationpropertiesofindividualmoleculesforenablingnovelnanosystemsforquantuminformationprocessing.Toachievethisgoalwewillconsidernotonlythesynthesisandcharacterizationwithstate-?????of-?????the-?????artmagnetometersbutalsoadvancedab-?????initiosimulationstogainfullunderstandingofthedynamics.AmongthemethodstobeusedwefindmagnetometryofhighsensitivityandhighspatialresolutionusingasingleelectronicspinassociatedtotheNitrogen-?????vacancycolorcentreindiamondincombinationwithconfocalandatomicforcemicroscopy;electronicandnuclearspinspectroscopyusingopticalcontrolofelectronicchargesandmicrowaveradiationtocontrolelectronicandnuclearspins.Particularattentionwillbegiventostableopticalandspinpropertiesofmoleculeswhichrobustnessisroutedinthesymmetryofthemolecules.Themodelingofmoleculeswillfocusonthegeometricalconfigurationofdifferentchargestates,electronictransfer,moleculardynamicsandtheeffectofvibrationsontheopticalpropertiesofmolecules.Theproposalaimstosearchfornovelmolecular???basednanosystemswithstablespinstatesandgoodcoherencetimesforquantuminformationapplications.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Oct 17, 2018
- Source ID
- N629091812180
Entities
People
- Jeronimo R. Maze
Organizations
- Office of Naval Research
- Pontifical Catholic University of Chile
- United States Navy