SlideShare a Scribd company logo

Controlling the motion of levitated particles by coherent scattering

Ondrej Cernotik
Ondrej Cernotik

Slides for the talk I was to give at the APS March Meeting in Denver on March 3, 2020.

Science
1 of 10
Download to read offline
Controlling the motion of levitated particles by coherent scattering Ondřej Černotík, Iivari Pietikäinen, Anil Kumar, and Radim Filip Department of Optics, Palacký University Olomouc, Czechia APS March Meeting, March 3, 2020 @cernotik
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Optical levitation allows for high-quality mechanical motion without damping. 2 Nonspherical particles S. Kuhn et al., Optica 4, 356 (2017) Hybrid systems L.P. Neukirch et al., Nat. Photon. 9, 653 (2015) Cavity optomechanics N. Kiesel, PNAS 110, 14180 (2013) Thermodynamics I.A. Martinez et al., Nat. Phys. 12, 67 (2016)
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Coherent scattering is a new, powerful tool for optomechanical interactions. 3 U. Delic et al., PRL 122, 123602 (2019) D. Windey et al., PRL 122, 123601 (2019) U. Delic et al., Science 367, 892 (2020)
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik The system is versatile, allowing one-, two-, and three- dimensional coupling. 4 C. Gonzalez-Ballestero et al., PRA 100, 013805 (2019) Intracavity intensity Radial coupling Axial coupling Polarization Etw<latexit sha1_base64="bRQQNOEkJg9znsC3zqgs56MYHpg=">AAACH3icbVDLSsNAFJ3UV42vqks3wSK4kJLEoi5LRXRZxT6gDWUynbRDJw9mbtQS8idu/BU3LhQRd/0bp2kX2nrgwuHcx5w5bsSZBNMca7ml5ZXVtfy6vrG5tb1T2N1ryDAWhNZJyEPRcrGknAW0Dgw4bUWCYt/ltOkOLyf95gMVkoXBPYwi6vi4HzCPEQxK6hbOOkCfILvTvruuOoltmye2basqp4ne8TEMXC+5SrsZFX4Cj6medgtFs2RmMBaJNSNFNEOtW/ju9EIS+zQAwrGUbcuMwEmwAEY4TfVOLGmEyRD3aVvRAPtUOknmKzWOlNIzvFCoCsDI1N8bCfalHPmumpyYlPO9ifhfrx2Dd+EkLIhioAGZPuTF3IDQmIRl9JigBPhIEUwEU14NMsACE1CR6ioEa/7Li6Rhl6zTkn1bLlaqszjy6AAdomNkoXNUQTeohuqIoGf0it7Rh/aivWmf2td0NKfNdvbRH2jjH0y5oe4=</latexit> Ecav<latexit sha1_base64="nvRiBR5yCYIOD0X3nzXvyGTc6/c=">AAACIHicbVDLSsNAFJ3UV42vqks3wSK4kJLEQl2Wiuiyin1AG8pkOmmHTh7M3BRLyKe48VfcuFBEd/o1TtMutPXAhcO5jzlz3IgzCab5peVWVtfWN/Kb+tb2zu5eYf+gKcNYENogIQ9F28WSchbQBjDgtB0Jin2X05Y7upz2W2MqJAuDe5hE1PHxIGAeIxiU1CtUukAfILvTubuuOYltm2e2basqp4ne9TEMXS+5SnsZFX5C8DjV016haJbMDMYyseakiOao9wqf3X5IYp8GQDiWsmOZETgJFsAIp6nejSWNMBnhAe0oGmCfSifJjKXGiVL6hhcKVQEYmfp7I8G+lBPfVZNTl3KxNxX/63Vi8C6chAVRDDQgs4e8mBsQGtO0jD4TlACfKIKJYMqrQYZYYAIqU12FYC1+eZk07ZJ1XrJvy8VqbR5HHh2hY3SKLFRBVXSD6qiBCHpEz+gVvWlP2ov2rn3MRnPafOcQ/YH2/QP8tqJH</latexit> Hint ∝ Ecav(r) ⋅ Etw(r) ≃ − (λxx + λyy)(c + c† ) − iλzz(c − c† )
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik We are interested in generating one-mode mechanical squeezing. 5 ·c = − (κ + iΔ)c + iλx + 2κcin ·x = ωmp ·p = − ωmx − γp + λ(c + c† ) + ξ H = ωm 2 (x2 + p2 ) + Δc† c − λ(c + c† )x
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Strong squeezing can be generated with a modulated trapping beam. 6 OC, R. Filip, PRResearch 2, 013052 (2020)ˇ tweezer amplitudeEtw(t) = E0[1 + α cos(2ωmt + ϕ)] H = Δc† c + ωm 2 p2 + ωm 2 [1 + α cos(2ωmt + ϕ)]2 x2 −λ[1 + α cos(2ωmt + ϕ)](c + c† )x
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Strong squeezing can be generated with a modulated trapping beam. 7 OC, R. Filip, PRResearch 2, 013052 (2020)ˇ transient regime, Δ ≫ λ, κ, ωm parametric squeezing steady state, Δ = ωm dissipative and parametric squeezing
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Extensions and applications of this scheme are possible. 8 • Towards full control of motion of a levitated particle • Mechanical squeezing for force sensing J. Gieseler et al., Nat. Phys. 9, 806 (2013) • Parametric and dissipative two-mode squeezing A. Pontin et al., PRL 116, 103601 (2016) C.F. Ockeloen-Korppi et al., Nature 556, 478 (2018) • Analysis beyond RWA I. Pietikäinen, OC, R. Filip, arXiv:2002.xxxxx Talk by Iivari: M02.00008, Wednesday, 12:39 PM, room 105
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Coherent scattering allows versatile interactions with multiple particles. 9 H = − (λ1b1 + λ2b† 2 )c† − (λ1b† 1 + λ2b2)c
Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Coherent scattering is a powerful tool for levitated optomechanics. 10 • Multiparticle dynamics via coherent scattering A. Kumar, OC, R. Filip, in preparationˇ • Mechanical squeezing for force sensing • Towards full control of motion of a levitated particle OC, R. Filip, PRResearch 2, 013052 (2020)ˇ • Mechanical squeezing for force sensing • Analysis beyond RWA I. Pietikäinen, OC, R. Filip, arXiv:2002.xxxxx Talk by Iivari: M02.00008, Wednesday, 12:39 PM, room 105 ˇ

Recommended

Novel approaches to optomechanical transduction
Novel approaches to optomechanical transductionNovel approaches to optomechanical transduction
Novel approaches to optomechanical transductionOndrej Cernotik
 
Quantum force sensing with optomechanical transducers
Quantum force sensing with optomechanical transducersQuantum force sensing with optomechanical transducers
Quantum force sensing with optomechanical transducersOndrej Cernotik
 
Hybrid quantum systems
Hybrid quantum systemsHybrid quantum systems
Hybrid quantum systemsOndrej Cernotik
 
Ancilla-error-transparent swap tests in circuit quantum electrodynamics
Ancilla-error-transparent swap tests in circuit quantum electrodynamicsAncilla-error-transparent swap tests in circuit quantum electrodynamics
Ancilla-error-transparent swap tests in circuit quantum electrodynamicsOndrej Cernotik
 
Microwave entanglement created using swap tests with biased noise
Microwave entanglement created using swap tests with biased noiseMicrowave entanglement created using swap tests with biased noise
Microwave entanglement created using swap tests with biased noiseOndrej Cernotik
 
Quantum networks with superconducting circuits and optomechanical transducers
Quantum networks with superconducting circuits and optomechanical transducersQuantum networks with superconducting circuits and optomechanical transducers
Quantum networks with superconducting circuits and optomechanical transducersOndrej Cernotik
 
Measurement-induced long-distance entanglement with optomechanical transducers
Measurement-induced long-distance entanglement with optomechanical transducersMeasurement-induced long-distance entanglement with optomechanical transducers
Measurement-induced long-distance entanglement with optomechanical transducersOndrej Cernotik
 
Improved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesImproved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesOndrej Cernotik
 

Recommended

Novel approaches to optomechanical transduction
Novel approaches to optomechanical transductionNovel approaches to optomechanical transduction
Novel approaches to optomechanical transductionOndrej Cernotik
 
Quantum force sensing with optomechanical transducers
Quantum force sensing with optomechanical transducersQuantum force sensing with optomechanical transducers
Quantum force sensing with optomechanical transducersOndrej Cernotik
 
Hybrid quantum systems
Hybrid quantum systemsHybrid quantum systems
Hybrid quantum systemsOndrej Cernotik
 
Ancilla-error-transparent swap tests in circuit quantum electrodynamics
Ancilla-error-transparent swap tests in circuit quantum electrodynamicsAncilla-error-transparent swap tests in circuit quantum electrodynamics
Ancilla-error-transparent swap tests in circuit quantum electrodynamicsOndrej Cernotik
 
Microwave entanglement created using swap tests with biased noise
Microwave entanglement created using swap tests with biased noiseMicrowave entanglement created using swap tests with biased noise
Microwave entanglement created using swap tests with biased noiseOndrej Cernotik
 
Quantum networks with superconducting circuits and optomechanical transducers
Quantum networks with superconducting circuits and optomechanical transducersQuantum networks with superconducting circuits and optomechanical transducers
Quantum networks with superconducting circuits and optomechanical transducersOndrej Cernotik
 
Measurement-induced long-distance entanglement with optomechanical transducers
Measurement-induced long-distance entanglement with optomechanical transducersMeasurement-induced long-distance entanglement with optomechanical transducers
Measurement-induced long-distance entanglement with optomechanical transducersOndrej Cernotik
 
Improved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesImproved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesOndrej Cernotik
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Ondrej Cernotik
 
NANO266 - Lecture 3 - Beyond the Hartree-Fock Approximation
NANO266 - Lecture 3 - Beyond the Hartree-Fock ApproximationNANO266 - Lecture 3 - Beyond the Hartree-Fock Approximation
NANO266 - Lecture 3 - Beyond the Hartree-Fock ApproximationUniversity of California, San Diego
 
NANO266 - Lecture 8 - Properties of Periodic Solids
NANO266 - Lecture 8 - Properties of Periodic SolidsNANO266 - Lecture 8 - Properties of Periodic Solids
NANO266 - Lecture 8 - Properties of Periodic SolidsUniversity of California, San Diego
 
Uppsala department presentation
Uppsala department presentationUppsala department presentation
Uppsala department presentationRitwik Mondal
 
NANO266 - Lecture 4 - Introduction to DFT
NANO266 - Lecture 4 - Introduction to DFTNANO266 - Lecture 4 - Introduction to DFT
NANO266 - Lecture 4 - Introduction to DFTUniversity of California, San Diego
 
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...Ritwik Mondal
 
NANO266 - Lecture 2 - The Hartree-Fock Approach
NANO266 - Lecture 2 - The Hartree-Fock ApproachNANO266 - Lecture 2 - The Hartree-Fock Approach
NANO266 - Lecture 2 - The Hartree-Fock ApproachUniversity of California, San Diego
 
NANO266 - Lecture 1 - Introduction to Quantum Mechanics
NANO266 - Lecture 1 - Introduction to Quantum MechanicsNANO266 - Lecture 1 - Introduction to Quantum Mechanics
NANO266 - Lecture 1 - Introduction to Quantum MechanicsUniversity of California, San Diego
 
UCSD NANO106 - 11 - X-rays and their interaction with matter
UCSD NANO106 - 11 - X-rays and their interaction with matterUCSD NANO106 - 11 - X-rays and their interaction with matter
UCSD NANO106 - 11 - X-rays and their interaction with matterUniversity of California, San Diego
 
E04933745
E04933745E04933745
E04933745IOSR-JEN
 
Nonlinear response of solids with Green's functions and TD-D(P)FT
Nonlinear response of solids with Green's functions and TD-D(P)FTNonlinear response of solids with Green's functions and TD-D(P)FT
Nonlinear response of solids with Green's functions and TD-D(P)FTClaudio Attaccalite
 
NANO266 - Lecture 13 - Ab initio molecular dyanmics
NANO266 - Lecture 13 - Ab initio molecular dyanmicsNANO266 - Lecture 13 - Ab initio molecular dyanmics
NANO266 - Lecture 13 - Ab initio molecular dyanmicsUniversity of California, San Diego
 
Vibration energy harvesting under uncertainty
Vibration energy harvesting under uncertaintyVibration energy harvesting under uncertainty
Vibration energy harvesting under uncertaintyUniversity of Glasgow
 
giessen short
giessen shortgiessen short
giessen shortCharles Havener
 
Hyperon and charm baryon axial charges from Lattice QCD
Hyperon and charm baryon axial charges from Lattice QCDHyperon and charm baryon axial charges from Lattice QCD
Hyperon and charm baryon axial charges from Lattice QCDChristos Kallidonis
 
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...Ahmed Ammar Rebai PhD
 
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...Wouter Deconinck
 
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...Valentin Besse
 
Eh4 energy harvesting due to random excitations and optimal design
Eh4 energy harvesting due to random excitations and optimal designEh4 energy harvesting due to random excitations and optimal design
Eh4 energy harvesting due to random excitations and optimal designUniversity of Glasgow
 
UCSD NANO106 - 12 - X-ray diffraction
UCSD NANO106 - 12 - X-ray diffractionUCSD NANO106 - 12 - X-ray diffraction
UCSD NANO106 - 12 - X-ray diffractionUniversity of California, San Diego
 
Gaussian control and readout of levitated nanoparticles via coherent scattering
Gaussian control and readout of levitated nanoparticles via coherent scatteringGaussian control and readout of levitated nanoparticles via coherent scattering
Gaussian control and readout of levitated nanoparticles via coherent scatteringOndrej Cernotik
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Ondrej Cernotik
 

More Related Content

What's hot

Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Ondrej Cernotik
 
Uppsala department presentation
Uppsala department presentationUppsala department presentation
Uppsala department presentationRitwik Mondal
 
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...Ritwik Mondal
 
Nonlinear response of solids with Green's functions and TD-D(P)FT
Nonlinear response of solids with Green's functions and TD-D(P)FTNonlinear response of solids with Green's functions and TD-D(P)FT
Nonlinear response of solids with Green's functions and TD-D(P)FTClaudio Attaccalite
 
Vibration energy harvesting under uncertainty
Vibration energy harvesting under uncertaintyVibration energy harvesting under uncertainty
Vibration energy harvesting under uncertaintyUniversity of Glasgow
 
Hyperon and charm baryon axial charges from Lattice QCD
Hyperon and charm baryon axial charges from Lattice QCDHyperon and charm baryon axial charges from Lattice QCD
Hyperon and charm baryon axial charges from Lattice QCDChristos Kallidonis
 
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...Ahmed Ammar Rebai PhD
 
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...Wouter Deconinck
 
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...Valentin Besse
 
Eh4 energy harvesting due to random excitations and optimal design
Eh4 energy harvesting due to random excitations and optimal designEh4 energy harvesting due to random excitations and optimal design
Eh4 energy harvesting due to random excitations and optimal designUniversity of Glasgow
 

What's hot (20)

Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...
 
NANO266 - Lecture 3 - Beyond the Hartree-Fock Approximation
NANO266 - Lecture 3 - Beyond the Hartree-Fock ApproximationNANO266 - Lecture 3 - Beyond the Hartree-Fock Approximation
NANO266 - Lecture 3 - Beyond the Hartree-Fock Approximation
 
NANO266 - Lecture 8 - Properties of Periodic Solids
NANO266 - Lecture 8 - Properties of Periodic SolidsNANO266 - Lecture 8 - Properties of Periodic Solids
NANO266 - Lecture 8 - Properties of Periodic Solids
 
Uppsala department presentation
Uppsala department presentationUppsala department presentation
Uppsala department presentation
 
NANO266 - Lecture 4 - Introduction to DFT
NANO266 - Lecture 4 - Introduction to DFTNANO266 - Lecture 4 - Introduction to DFT
NANO266 - Lecture 4 - Introduction to DFT
 
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz equa...
 
NANO266 - Lecture 2 - The Hartree-Fock Approach
NANO266 - Lecture 2 - The Hartree-Fock ApproachNANO266 - Lecture 2 - The Hartree-Fock Approach
NANO266 - Lecture 2 - The Hartree-Fock Approach
 
NANO266 - Lecture 1 - Introduction to Quantum Mechanics
NANO266 - Lecture 1 - Introduction to Quantum MechanicsNANO266 - Lecture 1 - Introduction to Quantum Mechanics
NANO266 - Lecture 1 - Introduction to Quantum Mechanics
 
UCSD NANO106 - 11 - X-rays and their interaction with matter
UCSD NANO106 - 11 - X-rays and their interaction with matterUCSD NANO106 - 11 - X-rays and their interaction with matter
UCSD NANO106 - 11 - X-rays and their interaction with matter
 
E04933745
E04933745E04933745
E04933745
 
Nonlinear response of solids with Green's functions and TD-D(P)FT
Nonlinear response of solids with Green's functions and TD-D(P)FTNonlinear response of solids with Green's functions and TD-D(P)FT
Nonlinear response of solids with Green's functions and TD-D(P)FT
 
NANO266 - Lecture 13 - Ab initio molecular dyanmics
NANO266 - Lecture 13 - Ab initio molecular dyanmicsNANO266 - Lecture 13 - Ab initio molecular dyanmics
NANO266 - Lecture 13 - Ab initio molecular dyanmics
 
Vibration energy harvesting under uncertainty
Vibration energy harvesting under uncertaintyVibration energy harvesting under uncertainty
Vibration energy harvesting under uncertainty
 
giessen short
giessen shortgiessen short
giessen short
 
Hyperon and charm baryon axial charges from Lattice QCD
Hyperon and charm baryon axial charges from Lattice QCDHyperon and charm baryon axial charges from Lattice QCD
Hyperon and charm baryon axial charges from Lattice QCD
 
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
Why radiodetection of UHECR still matters ? Karlsruhe Institute of Technol...
 
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
Parity-Violating and Parity-Conserving Asymmetries in ep and eN Scattering in...
 
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
ICTON 2014 - Third-and Fifth-order Optical Nonlinearities Characterization Us...
 
Eh4 energy harvesting due to random excitations and optimal design
Eh4 energy harvesting due to random excitations and optimal designEh4 energy harvesting due to random excitations and optimal design
Eh4 energy harvesting due to random excitations and optimal design
 
UCSD NANO106 - 12 - X-ray diffraction
UCSD NANO106 - 12 - X-ray diffractionUCSD NANO106 - 12 - X-ray diffraction
UCSD NANO106 - 12 - X-ray diffraction
 

Similar to Controlling the motion of levitated particles by coherent scattering

Gaussian control and readout of levitated nanoparticles via coherent scattering
Gaussian control and readout of levitated nanoparticles via coherent scatteringGaussian control and readout of levitated nanoparticles via coherent scattering
Gaussian control and readout of levitated nanoparticles via coherent scatteringOndrej Cernotik
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Ondrej Cernotik
 
FAST実験2:新型大気蛍光望遠鏡の性能評価
FAST実験2:新型大気蛍光望遠鏡の性能評価FAST実験2:新型大気蛍光望遠鏡の性能評価
FAST実験2:新型大気蛍光望遠鏡の性能評価Toshihiro FUJII
 
FINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODS
FINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODSFINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODS
FINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODSBMRS Meeting
 
Improved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesImproved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesOndrej Cernotik
 
Implementation of Radon Transformation for Electrical Impedance Tomography (E...
Implementation of Radon Transformation for Electrical Impedance Tomography (E...Implementation of Radon Transformation for Electrical Impedance Tomography (E...
Implementation of Radon Transformation for Electrical Impedance Tomography (E...ijistjournal
 
Motional Gaussian states and gates for a levitating particle
Motional Gaussian states and gates for a levitating particleMotional Gaussian states and gates for a levitating particle
Motional Gaussian states and gates for a levitating particleOndrej Cernotik
 
Novel approaches to optomechanical transduction
Novel approaches to optomechanical transductionNovel approaches to optomechanical transduction
Novel approaches to optomechanical transductionOndrej Cernotik
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Ondrej Cernotik
 
First results from a prototype for the Fluorescence detector Array of Single-...
First results from a prototype for the Fluorescence detector Array of Single-...First results from a prototype for the Fluorescence detector Array of Single-...
First results from a prototype for the Fluorescence detector Array of Single-...Toshihiro FUJII
 
Angular and position stability of a nanorod trapped in an optical tweezers
Angular and position stability of a nanorod trapped in an optical tweezersAngular and position stability of a nanorod trapped in an optical tweezers
Angular and position stability of a nanorod trapped in an optical tweezersAmélia Moreira
 
The FAST Project - Next Generation UHECR Observatory -
The FAST Project - Next Generation UHECR Observatory -The FAST Project - Next Generation UHECR Observatory -
The FAST Project - Next Generation UHECR Observatory -Toshihiro FUJII
 
Automatic eye fixations identification based on analysis of variance and cova...
Automatic eye fixations identification based on analysis of variance and cova...Automatic eye fixations identification based on analysis of variance and cova...
Automatic eye fixations identification based on analysis of variance and cova...Giuseppe Fineschi
 
Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...
Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...
Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...Toshihiro FUJII
 
Ion-acoustic rogue waves in multi-ion plasmas
Ion-acoustic rogue waves in multi-ion plasmasIon-acoustic rogue waves in multi-ion plasmas
Ion-acoustic rogue waves in multi-ion plasmasMehedi Hassan
 
Interference effects in cavity optomechanics with hybridized membranes
Interference effects in cavity optomechanics with hybridized membranesInterference effects in cavity optomechanics with hybridized membranes
Interference effects in cavity optomechanics with hybridized membranesOndrej Cernotik
 

Similar to Controlling the motion of levitated particles by coherent scattering (20)

Gaussian control and readout of levitated nanoparticles via coherent scattering
Gaussian control and readout of levitated nanoparticles via coherent scatteringGaussian control and readout of levitated nanoparticles via coherent scattering
Gaussian control and readout of levitated nanoparticles via coherent scattering
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...
 
FAST実験2:新型大気蛍光望遠鏡の性能評価
FAST実験2:新型大気蛍光望遠鏡の性能評価FAST実験2:新型大気蛍光望遠鏡の性能評価
FAST実験2:新型大気蛍光望遠鏡の性能評価
 
FINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODS
FINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODSFINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODS
FINE CHARACTERIZATION OF NANOSCALE MATERIALS BY TEM METHODS
 
Improved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologiesImproved optomechanical interactions for quantum technologies
Improved optomechanical interactions for quantum technologies
 
Implementation of Radon Transformation for Electrical Impedance Tomography (E...
Implementation of Radon Transformation for Electrical Impedance Tomography (E...Implementation of Radon Transformation for Electrical Impedance Tomography (E...
Implementation of Radon Transformation for Electrical Impedance Tomography (E...
 
Modeling organic electronics with ADF
Modeling organic electronics with ADFModeling organic electronics with ADF
Modeling organic electronics with ADF
 
Motional Gaussian states and gates for a levitating particle
Motional Gaussian states and gates for a levitating particleMotional Gaussian states and gates for a levitating particle
Motional Gaussian states and gates for a levitating particle
 
Novel approaches to optomechanical transduction
Novel approaches to optomechanical transductionNovel approaches to optomechanical transduction
Novel approaches to optomechanical transduction
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...
 
First results from a prototype for the Fluorescence detector Array of Single-...
First results from a prototype for the Fluorescence detector Array of Single-...First results from a prototype for the Fluorescence detector Array of Single-...
First results from a prototype for the Fluorescence detector Array of Single-...
 
Angular and position stability of a nanorod trapped in an optical tweezers
Angular and position stability of a nanorod trapped in an optical tweezersAngular and position stability of a nanorod trapped in an optical tweezers
Angular and position stability of a nanorod trapped in an optical tweezers
 
Publication
PublicationPublication
Publication
 
The FAST Project - Next Generation UHECR Observatory -
The FAST Project - Next Generation UHECR Observatory -The FAST Project - Next Generation UHECR Observatory -
The FAST Project - Next Generation UHECR Observatory -
 
PHYSICS.pdf
PHYSICS.pdfPHYSICS.pdf
PHYSICS.pdf
 
Automatic eye fixations identification based on analysis of variance and cova...
Automatic eye fixations identification based on analysis of variance and cova...Automatic eye fixations identification based on analysis of variance and cova...
Automatic eye fixations identification based on analysis of variance and cova...
 
Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...
Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...
Observing ultra-high energy cosmic rays with prototypes of the Fluorescence d...
 
Ion-acoustic rogue waves in multi-ion plasmas
Ion-acoustic rogue waves in multi-ion plasmasIon-acoustic rogue waves in multi-ion plasmas
Ion-acoustic rogue waves in multi-ion plasmas
 
Interference effects in cavity optomechanics with hybridized membranes
Interference effects in cavity optomechanics with hybridized membranesInterference effects in cavity optomechanics with hybridized membranes
Interference effects in cavity optomechanics with hybridized membranes
 
X ray tomography
X ray tomographyX ray tomography
X ray tomography
 

More from Ondrej Cernotik

Transformations of continuous-variable entangled states of light
Transformations of continuous-variable entangled states of lightTransformations of continuous-variable entangled states of light
Transformations of continuous-variable entangled states of lightOndrej Cernotik
 
Entangling distant superconducting qubits using nanomechanical transducers
Entangling distant superconducting qubits using nanomechanical transducersEntangling distant superconducting qubits using nanomechanical transducers
Entangling distant superconducting qubits using nanomechanical transducersOndrej Cernotik
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Ondrej Cernotik
 
Novel approaches to optomechanical transduction
Novel approaches to optomechanical transductionNovel approaches to optomechanical transduction
Novel approaches to optomechanical transductionOndrej Cernotik
 
Displacement-enhanced continuous-variable entanglement concentration
Displacement-enhanced continuous-variable entanglement concentrationDisplacement-enhanced continuous-variable entanglement concentration
Displacement-enhanced continuous-variable entanglement concentrationOndrej Cernotik
 
Spatially adiabatic frequency conversion in opto-electro-mechanical arrays
Spatially adiabatic frequency conversion in opto-electro-mechanical arraysSpatially adiabatic frequency conversion in opto-electro-mechanical arrays
Spatially adiabatic frequency conversion in opto-electro-mechanical arraysOndrej Cernotik
 
Cavity optomechanics with variable polarizability mirrors
Cavity optomechanics with variable polarizability mirrorsCavity optomechanics with variable polarizability mirrors
Cavity optomechanics with variable polarizability mirrorsOndrej Cernotik
 
Interference effects in doped cavity optomechanics
Interference effects in doped cavity optomechanicsInterference effects in doped cavity optomechanics
Interference effects in doped cavity optomechanicsOndrej Cernotik
 

More from Ondrej Cernotik (8)

Transformations of continuous-variable entangled states of light
Transformations of continuous-variable entangled states of lightTransformations of continuous-variable entangled states of light
Transformations of continuous-variable entangled states of light
 
Entangling distant superconducting qubits using nanomechanical transducers
Entangling distant superconducting qubits using nanomechanical transducersEntangling distant superconducting qubits using nanomechanical transducers
Entangling distant superconducting qubits using nanomechanical transducers
 
Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...Measurement-induced long-distance entanglement of superconducting qubits usin...
Measurement-induced long-distance entanglement of superconducting qubits usin...
 
Novel approaches to optomechanical transduction
Novel approaches to optomechanical transductionNovel approaches to optomechanical transduction
Novel approaches to optomechanical transduction
 
Displacement-enhanced continuous-variable entanglement concentration
Displacement-enhanced continuous-variable entanglement concentrationDisplacement-enhanced continuous-variable entanglement concentration
Displacement-enhanced continuous-variable entanglement concentration
 
Spatially adiabatic frequency conversion in opto-electro-mechanical arrays
Spatially adiabatic frequency conversion in opto-electro-mechanical arraysSpatially adiabatic frequency conversion in opto-electro-mechanical arrays
Spatially adiabatic frequency conversion in opto-electro-mechanical arrays
 
Cavity optomechanics with variable polarizability mirrors
Cavity optomechanics with variable polarizability mirrorsCavity optomechanics with variable polarizability mirrors
Cavity optomechanics with variable polarizability mirrors
 
Interference effects in doped cavity optomechanics
Interference effects in doped cavity optomechanicsInterference effects in doped cavity optomechanics
Interference effects in doped cavity optomechanics
 

Recently uploaded

Natural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsNatural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsAArockiyaNisha
 
Pests of cotton_Borer_Pests_Binomics_Dr.UPR.pdf
Pests of cotton_Borer_Pests_Binomics_Dr.UPR.pdfPests of cotton_Borer_Pests_Binomics_Dr.UPR.pdf
Pests of cotton_Borer_Pests_Binomics_Dr.UPR.pdfPirithiRaju
 
Animal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptxAnimal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptxUmerFayaz5
 
Pests of mustard_Identification_Management_Dr.UPR.pdf
Pests of mustard_Identification_Management_Dr.UPR.pdfPests of mustard_Identification_Management_Dr.UPR.pdf
Pests of mustard_Identification_Management_Dr.UPR.pdfPirithiRaju
 
Nightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43b
Nightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43bNightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43b
Nightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43bSérgio Sacani
 
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Sérgio Sacani
 
Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...
Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...
Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...anilsa9823
 
Raman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral Analysis
Raman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral AnalysisRaman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral Analysis
Raman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral AnalysisDiwakar Mishra
 
VIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C PVIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C PPRINCE C P
 
PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...
PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...
PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...Sérgio Sacani
 
Botany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdfBotany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdfSumit Kumar yadav
 
Zoology 4th semester series (krishna).pdf
Zoology 4th semester series (krishna).pdfZoology 4th semester series (krishna).pdf
Zoology 4th semester series (krishna).pdfSumit Kumar yadav
 
Hubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroidsHubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroidsSérgio Sacani
 
fundamental of entomology all in one topics of entomology
fundamental of entomology all in one topics of entomologyfundamental of entomology all in one topics of entomology
fundamental of entomology all in one topics of entomologyDrAnita Sharma
 
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...ssifa0344
 
Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​kaibalyasahoo82800
 
GBSN - Microbiology (Unit 1)
GBSN - Microbiology (Unit 1)GBSN - Microbiology (Unit 1)
GBSN - Microbiology (Unit 1)Areesha Ahmad
 
Formation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disksFormation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disksSérgio Sacani
 

Recently uploaded (20)

Natural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsNatural Polymer Based Nanomaterials
Natural Polymer Based Nanomaterials
 
Pests of cotton_Borer_Pests_Binomics_Dr.UPR.pdf
Pests of cotton_Borer_Pests_Binomics_Dr.UPR.pdfPests of cotton_Borer_Pests_Binomics_Dr.UPR.pdf
Pests of cotton_Borer_Pests_Binomics_Dr.UPR.pdf
 
Animal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptxAnimal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptx
 
Pests of mustard_Identification_Management_Dr.UPR.pdf
Pests of mustard_Identification_Management_Dr.UPR.pdfPests of mustard_Identification_Management_Dr.UPR.pdf
Pests of mustard_Identification_Management_Dr.UPR.pdf
 
Nightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43b
Nightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43bNightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43b
Nightside clouds and disequilibrium chemistry on the hot Jupiter WASP-43b
 
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
 
Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...
Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...
Lucknow 💋 Russian Call Girls Lucknow Finest Escorts Service 8923113531 Availa...
 
Raman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral Analysis
Raman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral AnalysisRaman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral Analysis
Raman spectroscopy.pptx M Pharm, M Sc, Advanced Spectral Analysis
 
VIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C PVIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C P
 
PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...
PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...
PossibleEoarcheanRecordsoftheGeomagneticFieldPreservedintheIsuaSupracrustalBe...
 
Botany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdfBotany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdf
 
Zoology 4th semester series (krishna).pdf
Zoology 4th semester series (krishna).pdfZoology 4th semester series (krishna).pdf
Zoology 4th semester series (krishna).pdf
 
The Philosophy of Science
The Philosophy of ScienceThe Philosophy of Science
The Philosophy of Science
 
Hubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroidsHubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroids
 
fundamental of entomology all in one topics of entomology
fundamental of entomology all in one topics of entomologyfundamental of entomology all in one topics of entomology
fundamental of entomology all in one topics of entomology
 
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
 
Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​
 
GBSN - Microbiology (Unit 1)
GBSN - Microbiology (Unit 1)GBSN - Microbiology (Unit 1)
GBSN - Microbiology (Unit 1)
 
CELL -Structural and Functional unit of life.pdf
CELL -Structural and Functional unit of life.pdfCELL -Structural and Functional unit of life.pdf
CELL -Structural and Functional unit of life.pdf
 
Formation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disksFormation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disks
 

Controlling the motion of levitated particles by coherent scattering

  • 1. Controlling the motion of levitated particles by coherent scattering Ondřej Černotík, Iivari Pietikäinen, Anil Kumar, and Radim Filip Department of Optics, Palacký University Olomouc, Czechia APS March Meeting, March 3, 2020 @cernotik
  • 2. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Optical levitation allows for high-quality mechanical motion without damping. 2 Nonspherical particles S. Kuhn et al., Optica 4, 356 (2017) Hybrid systems L.P. Neukirch et al., Nat. Photon. 9, 653 (2015) Cavity optomechanics N. Kiesel, PNAS 110, 14180 (2013) Thermodynamics I.A. Martinez et al., Nat. Phys. 12, 67 (2016)
  • 3. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Coherent scattering is a new, powerful tool for optomechanical interactions. 3 U. Delic et al., PRL 122, 123602 (2019) D. Windey et al., PRL 122, 123601 (2019) U. Delic et al., Science 367, 892 (2020)
  • 4. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik The system is versatile, allowing one-, two-, and three- dimensional coupling. 4 C. Gonzalez-Ballestero et al., PRA 100, 013805 (2019) Intracavity intensity Radial coupling Axial coupling Polarization Etw<latexit sha1_base64="bRQQNOEkJg9znsC3zqgs56MYHpg=">AAACH3icbVDLSsNAFJ3UV42vqks3wSK4kJLEoi5LRXRZxT6gDWUynbRDJw9mbtQS8idu/BU3LhQRd/0bp2kX2nrgwuHcx5w5bsSZBNMca7ml5ZXVtfy6vrG5tb1T2N1ryDAWhNZJyEPRcrGknAW0Dgw4bUWCYt/ltOkOLyf95gMVkoXBPYwi6vi4HzCPEQxK6hbOOkCfILvTvruuOoltmye2basqp4ne8TEMXC+5SrsZFX4Cj6medgtFs2RmMBaJNSNFNEOtW/ju9EIS+zQAwrGUbcuMwEmwAEY4TfVOLGmEyRD3aVvRAPtUOknmKzWOlNIzvFCoCsDI1N8bCfalHPmumpyYlPO9ifhfrx2Dd+EkLIhioAGZPuTF3IDQmIRl9JigBPhIEUwEU14NMsACE1CR6ioEa/7Li6Rhl6zTkn1bLlaqszjy6AAdomNkoXNUQTeohuqIoGf0it7Rh/aivWmf2td0NKfNdvbRH2jjH0y5oe4=</latexit> Ecav<latexit sha1_base64="nvRiBR5yCYIOD0X3nzXvyGTc6/c=">AAACIHicbVDLSsNAFJ3UV42vqks3wSK4kJLEQl2Wiuiyin1AG8pkOmmHTh7M3BRLyKe48VfcuFBEd/o1TtMutPXAhcO5jzlz3IgzCab5peVWVtfWN/Kb+tb2zu5eYf+gKcNYENogIQ9F28WSchbQBjDgtB0Jin2X05Y7upz2W2MqJAuDe5hE1PHxIGAeIxiU1CtUukAfILvTubuuOYltm2e2basqp4ne9TEMXS+5SnsZFX5C8DjV016haJbMDMYyseakiOao9wqf3X5IYp8GQDiWsmOZETgJFsAIp6nejSWNMBnhAe0oGmCfSifJjKXGiVL6hhcKVQEYmfp7I8G+lBPfVZNTl3KxNxX/63Vi8C6chAVRDDQgs4e8mBsQGtO0jD4TlACfKIKJYMqrQYZYYAIqU12FYC1+eZk07ZJ1XrJvy8VqbR5HHh2hY3SKLFRBVXSD6qiBCHpEz+gVvWlP2ov2rn3MRnPafOcQ/YH2/QP8tqJH</latexit> Hint ∝ Ecav(r) ⋅ Etw(r) ≃ − (λxx + λyy)(c + c† ) − iλzz(c − c† )
  • 5. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik We are interested in generating one-mode mechanical squeezing. 5 ·c = − (κ + iΔ)c + iλx + 2κcin ·x = ωmp ·p = − ωmx − γp + λ(c + c† ) + ξ H = ωm 2 (x2 + p2 ) + Δc† c − λ(c + c† )x
  • 6. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Strong squeezing can be generated with a modulated trapping beam. 6 OC, R. Filip, PRResearch 2, 013052 (2020)ˇ tweezer amplitudeEtw(t) = E0[1 + α cos(2ωmt + ϕ)] H = Δc† c + ωm 2 p2 + ωm 2 [1 + α cos(2ωmt + ϕ)]2 x2 −λ[1 + α cos(2ωmt + ϕ)](c + c† )x
  • 7. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Strong squeezing can be generated with a modulated trapping beam. 7 OC, R. Filip, PRResearch 2, 013052 (2020)ˇ transient regime, Δ ≫ λ, κ, ωm parametric squeezing steady state, Δ = ωm dissipative and parametric squeezing
  • 8. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Extensions and applications of this scheme are possible. 8 • Towards full control of motion of a levitated particle • Mechanical squeezing for force sensing J. Gieseler et al., Nat. Phys. 9, 806 (2013) • Parametric and dissipative two-mode squeezing A. Pontin et al., PRL 116, 103601 (2016) C.F. Ockeloen-Korppi et al., Nature 556, 478 (2018) • Analysis beyond RWA I. Pietikäinen, OC, R. Filip, arXiv:2002.xxxxx Talk by Iivari: M02.00008, Wednesday, 12:39 PM, room 105
  • 9. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Coherent scattering allows versatile interactions with multiple particles. 9 H = − (λ1b1 + λ2b† 2 )c† − (λ1b† 1 + λ2b2)c
  • 10. Ondrej Cernotík: Controlling the motion of levitated particles by coherent scatteringˇˇ @cernotik Coherent scattering is a powerful tool for levitated optomechanics. 10 • Multiparticle dynamics via coherent scattering A. Kumar, OC, R. Filip, in preparationˇ • Mechanical squeezing for force sensing • Towards full control of motion of a levitated particle OC, R. Filip, PRResearch 2, 013052 (2020)ˇ • Mechanical squeezing for force sensing • Analysis beyond RWA I. Pietikäinen, OC, R. Filip, arXiv:2002.xxxxx Talk by Iivari: M02.00008, Wednesday, 12:39 PM, room 105 ˇ