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98 results on '"Ohadi, H"'

2. Laser Writing of Parabolic Micromirrors with a High Numerical Aperture for Optical Trapping and Rotation

Author

Plaskocinski, T., Arita, Y., Bruce, G. D., Persheyev, S., Dholakia, K., Di Falco, A., and Ohadi, H.

Subjects
Physics - Optics
Abstract

On-chip optical trapping systems allow for high scalability and lower the barrier to access. Systems capable of trapping multiple particles typically come with high cost and complexity. Here we present a technique for making parabolic mirrors with micron-size dimensions and high numerical apertures (NA>1). Over 350 mirrors are made by simple CO2 laser ablation of glass followed by gold deposition. We fabricate mirrors of arbitrary diameter and depth at a high throughput rate by carefully controlling the ablation parameters. We use the micromirrors for 3-dimensional optical trapping of microbeads in solution, achieving a maximum optical trap stiffness of 52 pN/{\mu}m/W. We then further demonstrate the viability of the mirrors as in-situ optical elements through the rotation of a vaterite particle using reflected circularly polarized light. The method used allows for rapid and highly customizable fabrication of dense optical arrays., Comment: 6 pages, 5 figures

Published
2023

3. Ultralong temporal coherence in optically trapped exciton-polariton condensates

Author

Orfanakis, K., Tzortzakakis, A. F., Petrosyan, D., Savvidis, P. G., and Ohadi, H.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

We investigate an optically trapped exciton-polariton condensate and observe temporal coherence beyond 1~ns duration. Due to the reduction of the spatial overlap with the thermal reservoir of excitons, the coherence time of the trapped condensate is more than an order of magnitude longer than that of an untrapped condensate. This ultralong coherence enables high precision spectroscopy of the trapped condensate, and we observe periodic beats of the field correlation function due to a fine energy splitting of two polarization modes of the condensate. Our results are important for realizing polariton simulators with spinor condensates in lattice potentials., Comment: 8 pages, 7 figures

Published
2021
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4. Synchronization crossover of polariton condensates in weakly disordered lattices

Author

Ohadi, H., Redondo, Y. del Valle-Inclan, Ramsay, A. J., Hatzopoulos, Z., Liew, T. C. H., Eastham, P. R., Savvidis, P. G., and Baumberg, J. J.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We demonstrate that the synchronization of a lattice of solid-state condensates when inter-site tunnelling is switched on, depends strongly on the weak local disorder. This finding is vital for implementation of condensate arrays as computation devices. The condensates here are nonlinear bosonic fluids of exciton-polaritons trapped in a weakly disordered Bose-Hubbard potential, where the nearest neighboring tunneling rate (Josephson coupling) can be dynamically tuned. The system can thus be tuned from a localized to a delocalized fluid as the number density, or the Josephson coupling between nearest neighbors increases. The localized fluid is observed as a lattice of unsynchronized condensates emitting at different energies set by the disorder potential. In the delocalized phase the condensates synchronize, and long-range order appears, evidenced by narrowing of momentum and energy distributions, new diffraction peaks in momentum space, and spatial coherence between condensates. Our work identifies similarities and differences of this nonequilibrium crossover to the traditional Bose-glass to superfluid transition in atomic condensates., Comment: 8 pages, 9 figures

Published
2018
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5. Strain-assisted optomechanical coupling of polariton condensate spin to a micromechanical resonator

Author

Be'er, O., Ohadi, H., Redondo, Y. del Valle-Inclan, Ramsay, A. J., Tsintzos, S. I., Hatzopoulos, Z., Savvidis, P. G., and Baumberg, J. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report spin and intensity coupling of an exciton-polariton condensate to the mechanical vibrations of a circular membrane microcavity. We optically drive the microcavity resonator at the lowest mechanical resonance frequency while creating an optically-trapped spin-polarized polariton condensate in different locations on the microcavity, and observe spin and intensity oscillations of the condensate at the vibration frequency of the resonator. Spin oscillations are induced by vibrational strain driving, whilst the modulation of the optical trap due to the displacement of the membrane causes intensity oscillations in the condensate emission. Our results demonstrate spin-phonon coupling in a macroscopically coherent condensate., Comment: 5 pages

Published
2018
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6. Spin order and phase transitions in chains of polariton condensates

Author

Ohadi, H., Ramsay, A. J., Sigurdsson, H., Redondo, Y. del Valle-Inclan, Tsintzos, S. I., Hatzopoulos, Z., Liew, T. C. H., Shelykh, I. A., Rubo, Y. G., Savvidis, P. G., and Baumberg, J. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

We demonstrate that multiply-coupled spinor polariton condensates can be optically tuned through a sequence of spin-ordered phases by changing the coupling strength between nearest neighbors. For closed 4-condensate chains these phases span from ferromagnetic (FM) to antiferromagnetic (AFM), separated by an unexpected crossover phase. This crossover phase is composed of alternating FM-AFM bonds. For larger 8 condensate chains, we show the critical role of spatial inhomogeneities and demonstrate a scheme to overcome them and prepare any desired spin state. Our observations thus demonstrate a fully controllable non-equilibrium spin lattice., Comment: 6 pages, 3 figures

Published
2017
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7. A driven-dissipative spin chain model based on exciton-polariton condensates

Author

Sigurdsson, H., Ramsay, A. J., Ohadi, H., Rubo, Y. G., Liew, T. C. H., Baumberg, J. J., and Shelykh, I. A.

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

An infinite chain of driven-dissipative condensate spins with uniform nearest-neighbor coherent coupling is solved analytically and investigated numerically. Above a critical occupation threshold the condensates undergo spontaneous spin bifurcation (becoming magnetized) forming a binary chain of spin-up or spin-down states. Minimization of the bifurcation threshold determines the magnetic order as a function of the coupling strength. This allows control of multiple magnetic orders via adiabatic (slow ramping of) pumping. In addition to ferromagnetic and anti-ferromagnetic ordered states we show the formation of a paired-spin ordered state $\left|\dots \uparrow \uparrow \downarrow \downarrow \dots \right. \rangle$ as a consequence of the phase degree of freedom between condensates.

Published
2017
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8. Tunable magnetic alignment between trapped exciton-polariton condensates

Author

Ohadi, H., Redondo, Y. del Valle-Inclan, Dreismann, A., Rubo, Y. G., Pinsker, F., Tsintzos, S. I., Hatzopoulos, Z., Savvidis, P. G., and Baumberg, J. J.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

Tunable spin correlations are found to arise between two neighboring trapped exciton-polariton condensates which spin-polarize spontaneously. We observe a crossover from an antiferromagnetic- to a ferromagnetic pair state by reducing the coupling barrier in real-time using control of the imprinted pattern of pump light. Fast optical switching of both condensates is then achieved by resonantly but weakly triggering only a single condensate. These effects can be explained as the competition between spin bifurcations and spin-preserving Josephson coupling between the two condensates, and open the way to polariton Bose-Hubbard ladders., Comment: 5 pages, 4 figures

Published
2016
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9. Spontaneous spin bifurcations and ferromagnetic phase transitions in a spinor exciton-polariton condensate

Author

Ohadi, H., Dreismann, A., Rubo, Y. G., Pinsker, F., Redondo, Y. del Valle-Inclan, Tsintzos, S. I., Hatzopoulos, Z., Savvidis, P. G., and Baumberg, J. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

We observe a spontaneous parity breaking bifurcation to a ferromagnetic state in a spatially trapped exciton-polariton condensate. At a critical bifurcation density under nonresonant excitation, the whole condensate spontaneously magnetizes and randomly adopts one of two elliptically polarized (up to 95% circularly-polarized) states with opposite handedness of polarization. The magnetized condensate remains stable for many seconds at 5 K, but at higher temperatures it can flip from one magnetic orientation to another. We optically address these states and demonstrate the inversion of the magnetic state by resonantly injecting 100-fold weaker pulses of opposite spin. Theoretically, these phenomena can be well described as spontaneous symmetry breaking of the spin degree of freedom induced by different loss rates of the linear polarizations., Comment: 18 pages, 12 figures

Published
2015
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10. Robust platform for engineering pure-quantum-state transitions in polariton condensates

Author

Askitopoulos, A., Liew, T. C. H., Ohadi, H., Hatzopoulos, Z., Savvidis, P. G., and Lagoudakis, P. G.

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on pure-quantum-state polariton condensates in optical annular traps. The study of the underlying mechanism reveals that the polariton wavefunction always coalesces in a single pure-quantum-state that, counter-intuitively, is always the uppermost confined state with the highest overlap to the exciton reservoir. The tunability of such states combined with the short polariton lifetime allows for ultrafast transitions between coherent mesoscopic wavefunctions of distinctly different symmetries rendering optically confined polariton condensates a promising platform for applications such as many-body quantum circuitry and continuous-variable quantum processing., Comment: 5 pages, 5 figures

Published
2014
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11. Dissipative phase locking of exciton-polariton condensates

Author

Ohadi, H., Gregory, R. L., Freegarde, T., Rubo, Y. G., Kavokin, A. V., and Lagoudakis, P. G.

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Quantum Gases
Abstract

We demonstrate, both experimentally and theoretically, a new phenomenon: the presence of dissipative coupling in the system of driven bosons. This is evidenced for a particular case of externally excited spots of exciton-polariton condensates in semiconductor microcavities. We observe that for two spatially separated condensates the dissipative coupling leads to the phase locking, either in-phase or out-of-phase, between the condensates. The effect depends on the distance between the condensates. For several excited spots, we observe the appearance of spontaneous vorticity in the system., Comment: 21 pages, 12 figures

Published
2014
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12. Linear wave dynamics explains observations attributed to dark-solitons in a polariton quantum fluid

Author

Cilibrizzi, P., Ohadi, H., Ostatnicky, T., Askitopoulos, A., Langbein, W., and Lagoudakis, P.

Subjects
Physics - Optics, Condensed Matter - Quantum Gases
Abstract

We investigate the propagation and scattering of polaritons in a planar GaAs microcavity in the linear regime under resonant excitation. The propagation of the coherent polariton wave across an extended defect creates phase and intensity patterns with identical qualitative features previously attributed to dark and half-dark solitons of polaritons. We demonstrate that these features are observed for negligible nonlinearity (i.e., polariton-polariton interaction) and are, therefore, not sufficient to identify dark and half-dark solitons. A linear model based on the Maxwell equations is shown to reproduce the experimental observations., Comment: Article + Supplementary Information (tot. 18 pages)

Published
2014
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13. Polariton Condensation in an optically induced 2D potentia

Author

Askitopoulos, A., Ohadi, H., Hatzopoulos, Z., Savvidis, P. G., Kavokin, A. V., and Lagoudakis, P. G.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We demonstrate experimentally the condensation of exciton-polaritons through optical trapping. The non-resonant pump profile is shaped into a ring and projected to a high quality factor microcavity where it forms a 2D repulsive optical potential originating from the interactions of polaritons with the excitonic reservoir. Increasing the population of particles in the trap eventually leads to the emergence of a confined polariton condensate that is spatially decoupled from the decoherence inducing reservoir, before any build up of coherence on the excitation region. In a reference experiment, where the trapping mechanism is switched off by changing the excitation intensity profile, polariton condensation takes place for excitation densities more than two times higher and the resulting condensate is subject to a much stronger dephasing and depletion processes.

Published
2012
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14. H\'ansch--Couillaud locking of Mach--Zehnder interferometer for carrier removal from a phase-modulated optical spectrum

Author

Bateman, J. E., Murray, R. L. D., Himsworth, M., Ohadi, H., Xuereb, A., and Freegarde, T.

Subjects
Physics - Optics, Physics - Instrumentation and Detectors
Abstract

We describe and analyse the operation and stabilization of a Mach--Zehnder interferometer, which separates the carrier and the first-order sidebands of a phase-modulated laser field, and which is locked using the H\"ansch--Couillaud method. In addition to the necessary attenuation, our interferometer introduces, via total internal reflection, a significant polarization-dependent phase delay. We employ a general treatment to describe an interferometer with an object which affects the field along one path, and we examine how this phase delay affects the error signal. We discuss the requirements necessary to ensure the lock point remains unchanged when phase modulation is introduced, and we demonstrate and characterize this locking experimentally. Finally, we suggest an extension to this locking strategy using heterodyne detection., Comment: 4 pages, 5 figures

Published
2009
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15. Dynamics of axialized laser-cooled ions in a Penning trap

Author

Phillips, E. S., Hendricks, R. J., Abdulla, A. M., Ohadi, H., Crick, D., Koo, K., Segal, D. M., and Thompson, R. C.

Subjects
Quantum Physics
Abstract

We report the experimental characterization of axialization - a method of reducing the magnetron motion of a small number of ions stored in a Penning trap. This is an important step in the investigation of the suitability of Penning traps for quantum information processing. The magnetron motion was coupled to the laser-cooled modified cyclotron motion by the application of a near-resonant oscillating quadrupole potential (the "axialization drive"). Measurement of cooling rates of the radial motions of the ions showed an order-of-magnitude increase in the damping rate of the magnetron motion with the axialization drive applied. The experimental results are in good qualitative agreement with a recent theoretical study. In particular, a classical avoided crossing was observed in the motional frequencies as the axialization drive frequency was swept through the optimum value, proving that axialization is indeed a resonant effect., Comment: 8 pages, 9 figures

Published
2007
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16. Novel designs for Penning ion traps

Author

Castrejon-Pita, J. R., Ohadi, H., Crick, D. R., Winters, D. F. A., Segal, D. M., and Thompson, R. C.

Subjects
Quantum Physics
Abstract

We present a number of alternative designs for Penning ion traps suitable for quantum information processing (QIP) applications with atomic ions. The first trap design is a simple array of long straight wires which allows easy optical access. A prototype of this trap has been built to trap Ca+ and a simple electronic detection scheme has been employed to demonstrate the operation of the trap. Another trap design consists of a conducting plate with a hole in it situated above a continuous conducting plane. The final trap design is based on an array of pad electrodes. Although this trap design lacks the open geometry of the traps described above, the pad design may prove useful in a hybrid scheme in which information processing and qubit storage take place in different types of trap. The behaviour of the pad traps is simulated numerically and techniques for moving ions rapidly between traps are discussed. Future experiments with these various designs are discussed. All of the designs lend themselves to the construction of multiple trap arrays, as required for scalable ion trap QIP., Comment: 11 pages, 10 figures

Published
2006

20. Erratum: Stochastic spin flips in polariton condensates: Nonlinear tuning from ghz to sub-hz (New Journal of Physics (2018) 20 (075008) DOI: 10.1088/1367-2630/aad377)

Author

Del Valle-Inclan Redondo, Y, Ohadi, H, Rubo, YG, Beer, O, Ramsay, AJ, Tsintzos, SI, Hatzopoulos, Z, Savvidis, PG, Baumberg, JJ, Del Valle-Inclan Redondo, Yago [0000-0003-0886-7226], Ohadi, Hamid [0000-0001-6418-111X], Baumberg, Jeremy [0000-0002-9606-9488], and Apollo - University of Cambridge Repository

Subjects
chaos, exciton-polariton, driven-dissipative, Physics::Optics, spin dynamics, non-equilibrium condensate
Abstract

The stability of spin of macroscopic quantum states to intrinsic noise is studied for non-resonantly pumped optically-trapped polariton condensates. We demonstrate flipping between the two spinpolarised states with >10⁴ slow-down of the flip rate by tuning the optical pump power. Individual spin flips faster than 50 picosecond are time resolved using single-shot streak camera imaging. We reproduce our results within a mean-field model accounting for cross-spin scattering between excitons and polaritons, yielding a ratio of cross- to co-spin scattering of ~0.6, in contrast with previous literature suggestions.

Published
2018
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25. Spin Order and Phase Transitions in Chains of Polariton Condensates

Author

Ohadi, H., primary, Ramsay, A. J., additional, Sigurdsson, H., additional, del Valle-Inclan Redondo, Y., additional, Tsintzos, S. I., additional, Hatzopoulos, Z., additional, Liew, T. C. H., additional, Shelykh, I. A., additional, Rubo, Y. G., additional, Savvidis, P. G., additional, and Baumberg, J. J., additional

Published
2017
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27. Half-skyrmion spin textures in polariton microcavities

Author

Cilibrizzi, P., primary, Sigurdsson, H., additional, Liew, T. C. H., additional, Ohadi, H., additional, Askitopoulos, A., additional, Brodbeck, S., additional, Schneider, C., additional, Shelykh, I. A., additional, Höfling, S., additional, Ruostekoski, J., additional, and Lagoudakis, P., additional

Published
2016
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30. Polariton spin whirls

Author

Cilibrizzi, P., primary, Sigurdsson, H., additional, Liew, T. C. H., additional, Ohadi, H., additional, Wilkinson, S., additional, Askitopoulos, A., additional, Shelykh, I. A., additional, and Lagoudakis, P. G., additional

Published
2015
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31. Cilibrizziet al.Reply

Author

Cilibrizzi, P., primary, Ohadi, H., additional, Ostatnicky, T., additional, Askitopoulos, A., additional, Langbein, W., additional, and Lagoudakis, P., additional

Published
2015
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32. Cooling atoms particles and polarisable objects using dissipative dipole forces

Author

Xuereb, A., Ohadi, H., Bateman, J., Cooper, N., Freegarde, T., and Horak, P.

Abstract

Optical cooling methods are generally applicable to a very restricted range of species. As a means of overcoming this problem, we explore the effect of the retarded interaction of any polarisable particle (an atom, a molecule or even a micromirror) with itself, similarly to cavity-mediated cooling. We use the transfermatrix method, extended to allow us to handle moving scatterers, to explore the most general configuration of a mobile particle interacting with any 1D combination of fixed optical elements. Remarkably, this model allows a solution in closed form for the force acting on the particle, without any a priori restriction on the nature of the particle.

Published
2010

35. Scattering theory of cooling in optomechanical systems

Author

Xuereb, A., Ohadi, H., Bateman, J., Murray, R., Himsworth, M., Domokos, P., Horak, P., and Freegarde, T.

Subjects
Physics::Optics
Abstract

We present a one-dimensional scattering theory, arising from the optomechanical coupling of the motional degree of freedom of scatterers to the electromagnetic field. Multiple scattering to all orders is taken into account, and the result is a versatile model that can be used to describe a wealth of effects, including optical molasses and novel interactions between atoms and cavities that could potentially lead to optical cooling mechanisms applicable to a wide range of species.

Published
2009

44. Novel designs for Penning ion traps

Author

CASTREJÓN-PITA, J. R., primary, Ohadi, H., additional, Crick, D. R., additional, Winters, D. F. A., additional, Segal, D. M., additional, and Thompson, R. C., additional

Published
2007
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46. Single-molecule optomechanics in 'picocavities'

Author

Benz, F, Schmidt, MK, Dreismann, A, Chikkaraddy, R, Zhang, Y, Demetriadou, A, Carnegie, C, Ohadi, H, De Nijs, B, Esteban, R, Aizpurua, J, and Baumberg, JJ

Subjects
0205 Optical Physics, Physics::Optics, 7. Clean energy
Abstract

Trapping light with noble metal nanostructures overcomes the diffraction limit and can confine light to volumes typically on the order of 30 cubic nanometers. We found that individual atomic features inside the gap of a plasmonic nanoassembly can localize light to volumes well below 1 cubic nanometer ("picocavities"), enabling optical experiments on the atomic scale. These atomic features are dynamically formed and disassembled by laser irradiation. Although unstable at room temperature, picocavities can be stabilized at cryogenic temperatures, allowing single atomic cavities to be probed for many minutes. Unlike traditional optomechanical resonators, such extreme optical confinement yields a factor of 10$^{6}$ enhancement of optomechanical coupling between the picocavity field and vibrations of individual molecular bonds. This work sets the basis for developing nanoscale nonlinear quantum optics on the single-molecule level.

47. Strain-assisted optomechanical coupling of polariton condensate spin to a micromechanical resonator

Author

Be'Er, O, Ohadi, H, Del Valle-Inclan Redondo, Y, Ramsay, AJ, Tsintzos, SI, Hatzopoulos, Z, Savvidis, PG, and Baumberg, JJ

Subjects
Condensed Matter::Quantum Gases, Condensed Matter::Other, cond-mat.mes-hall, Physics::Optics, Condensed Matter::Strongly Correlated Electrons, 3. Good health
Abstract

We report spin and intensity coupling of an exciton-polariton condensate to the mechanical vibrations of a circular membrane microcavity. We optically drive the microcavity resonator at the lowest mechanical resonance frequency while creating an optically-trapped spin-polarized polariton condensate in different locations on the microcavity, and observe spin and intensity oscillations of the condensate at the vibration frequency of the resonator. Spin oscillations are induced by vibrational strain driving, whilst the modulation of the optical trap due to the displacement of the membrane causes intensity oscillations in the condensate emission. Our results demonstrate spin-phonon coupling in a macroscopically coherent condensate.

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