1,818 research outputs found
Pushing Purcell-enhancement beyond its limits
Purcell-enhanced emission from a coupled emitter-cavity system is a
fundamental manifestation of cavity quantum electrodynamics. Starting from a
theoretical description we derive a scheme for photon emission from an emitter
coupled to a birefringent cavity that exceeds hitherto anticipated limitations.
Based on a recent study and experimental investigation of the intra-cavity
coupling of orthogonal polarisation modes in birefringent cavities, we now
decouple the emitter and the photon prior to emission from the cavity mode.
Effectively, this is "hiding" the emitter from the photon in the cavity to
suppress re-excitation, increasing the overall emission through the cavity
mirrors. In doing so we show that tailored cavity birefringence can offer
significant advantages and that these are practically achievable within the
bounds of present-day technology. It is found that birefringence can mitigate
the tradeoff between stronger emitter-cavity coupling and efficient photon
extraction. This allows for longer cavities to be constructed without a loss of
performance -- a significant result for applications where dielectric mirrors
interfere with any trapping fields confining the emitter. We then generalise
our model to consider a variety of equivalent schemes. For instance, detuning a
pair of ground states in a three-level emitter coupled to a cavity in a
Lambda-system is shown to provide the same enhancement, and it can be combined
with a birefringent cavity to further increase performance. Additionally, it is
found that when directly connecting multiple ground states of the emitter to
form a chain of coupled states, the extraction efficiency approaches its
fundamental upper limit. The principles proposed in this work can be applied in
multiple ways to any emitter-cavity system, paving the way to surpassing the
traditional limits of such systems with technologies that exist today.Comment: 8 pages, 8 figures plus 3 page appendi
Pushing Purcell enhancement beyond its limits
Purcell-enhanced photon emission into a cavity is at the heart of many schemes for interfacing quantum states of light and matter. We show that the intra-cavity coupling of orthogonal polarisation modes in a birefringent cavity allows for the emitter and photon to be decoupled prior to emission from the cavity mode, enabling photon extraction efficiencies that exceed the, previously considered fundamental, limits of Purcell enhancement. Tailored cavity birefringence is seen to mitigate the tradeoff between stronger emitter-cavity coupling and efficient photon extraction, providing significant advantages over single-mode cavities. We then generalise this approach to show that engineered coupling between states of the emitter can equivalently 'hide' the emitter from the photon, ultimately allowing the extraction efficiency to approach its fundamental upper limit. The principles proposed in this work can be applied in multiple ways to any emitter-cavity system, paving the way to surpassing the traditional limitations with technologies that exist today
Multi-resonant open-access microcavity arrays for light matter interaction
We report the realisation of a high-finesse open-access cavity array, tailored towards the creation of multiple coherent light-matter interfaces within a compact environment. We describe the key technical developments put in place to fabricate such a system, comprising the creation of tapered pyramidal substrates and an in-house laser machining setup. Cavities made from these mirrors are characterised, by laser spectroscopy, to possess similar optical properties to state-of-the-art fibre-tip cavities, but offer a compelling route towards improved performance, even when used to support only a single mode. The implementation of a 2×2 cavity array and the independent frequency tuning between three neighbouring sites are demonstrated
Multiple Topical Applications of Arachidonic Acid to Mouse Ears Induce Inflammatory and Proliferative Changes
The response to daily topical applications of arachidonic acid (0.25 – 4 mg/ear/day) to the ears of outbred CD-1 mice was monitored. The first application produced erythema, extravasation of plasma proteins resulting in an increase in ear weight, and some neutrophil accumulation (detected histologically and quantified by myeloperoxidase content). The second application produced minimal edema but did cause erythema and a greater accumulation of neutrophils. Subsequent daily application caused erythema, neutrophil accumulation, and an increase in ear weight predominantly due to cell proliferation (epidermis and connective tissue). Daily applications of other unsaturated fatty acids did not match the response induced by arachidonic acid. Mast cell deficient mice (W/Wv) exhibited a smaller edema response to the first dose of arachidonic acid compared to either their wild-type controls or CD-1 mice. In addition, W/Wv mice exhibited a smaller ear weight increase and myeloperoxidase accumulation following eight daily doses of arachidonic acid. However, epidermal proliferation was similar in all the strains of mice tested. These data suggest that the edema caused by the first topical application of arachidonic acid is partly mast cell mediated. Mast cells also appear to be involved in the neutrophil infiltration induced by multiple topical applications, but not in the epidermal proliferation
Mode mixing and losses in misaligned microcavities
We present a study on the optical losses of Fabry-P\'erot cavities subject to
realistic transverse mirror misalignment. We consider mirrors of the two most
prevalent surface forms: idealised spherical depressions, and Gaussian profiles
generated by laser ablation. We first describe the mode mixing phenomena seen
in the spherical mirror case and compare to the frequently-used clipping model,
observing close agreement in the predicted diffraction loss, but with the
addition of protective mode mixing at transverse degeneracies. We then discuss
the Gaussian mirror case, detailing how the varying surface curvature across
the mirror leads to complex variations in round trip loss and mode profile. In
light of the severe mode distortion and strongly elevated loss predicted for
many cavity lengths and transverse alignments when using Gaussian mirrors, we
suggest that the consequences of mirror surface profile are carefully
considered when designing cavity experiments.Comment: 16 pages, 12 figure
Efficient operator method for modelling mode mixing in misaligned optical cavities
The transverse field structure and diffraction loss of the resonant modes of
Fabry-P\'erot optical cavities are acutely sensitive to the alignment and shape
of the mirror substrates. We develop extensions to the `mode mixing' method
applicable to arbitrary mirror shapes, which both facilitate fast calculation
of the modes of cavities with transversely misaligned mirrors and enable the
determination and transformation of the geometric properties of these modes. We
show how these methods extend previous capabilities by including the
practically-motivated case of transverse mirror misalignment, unveiling rich
and complex structure of the resonant modes.Comment: 17 pages, 7 figure
Optimisation of Scalable Ion-Cavity Interfaces for Quantum Photonic Networks
In the design optimisation of ion-cavity interfaces for quantum networking
applications, difficulties occur due to the many competing figures of merit and
highly interdependent design constraints, many of which present `soft-limits',
amenable to improvement at the cost of engineering time. In this work we
present a systematic approach to this problem which offers a means to identify
efficient and robust operating regimes, and to elucidate the trade-offs
involved in the design process, allowing engineering efforts to be focused on
the most sensitive and critical parameters. We show that in many relevant cases
it is possible to approximately separate the geometric aspects of the
cooperativity from those associated with the atomic system and the mirror
surfaces themselves, greatly simplifying the optimisation procedure. Although
our approach to optimisation can be applied to most operating regimes, here we
consider cavities suitable for typical ion trapping experiments, and with
substantial transverse misalignment of the mirrors. We find that cavities with
mirror misalignments of many micrometres can still offer very high photon
extraction efficiencies, offering an appealing route to the scalable production
of ion-cavity interfaces for large scale quantum networks
Light-matter interaction in open cavities with dielectric stacks
We evaluate the exact dipole coupling strength between a single emitter and
the radiation field within an optical cavity, taking into account the effects
of multilayer dielectric mirrors. Our model allows one to freely vary the
resonance frequency of the cavity, the frequency of light or atomic transition
addressing it and the design wavelength of the dielectric mirror. The coupling
strength is derived for an open system with unbound frequency modes. For very
short cavities, the effective length used to determine their mode volume and
the lengths defining their resonances are different, and also found to diverge
appreciably from their geometric length, with the radiation field being
strongest within the dielectric mirror itself. Only for cavities much longer
than their resonant wavelength does the mode volume asymptotically approach
that normally assumed from their geometric length.Comment: 17 pages, 5 figures, 1 tabl
ACE-ASIA - Regional climatic and atmospheric chemical effects of Asian dust and pollution
Although continental-scale plumes of Asian dust and pollution reduce the amount of solar radiation reaching the earth's surface and perturb the chemistry of the atmosphere, our ability to quantify these effects has been limited by a lack of critical observations, particularly of layers above the surface. Comprehensive surface, airborne, shipboard, and satellite measurements of Asian aerosol chemical composition, size, optical properties, and radiative impacts were performed during the Asian Pacific Regional Aerosol Characterization Experiment (ACE-Asia) study. Measurements within a massive Chinese dust storm at numerous widely spaced sampling locations revealed the highly complex structure of the atmosphere, in which layers of dust, urban pollution, and biomass-burning smoke may be transported long distances as distinct entities or mixed together. The data allow a first-time assessment of the regional climatic and atmospheric chemical effects of a continental-scale mixture of dust and pollution. Our results show that radiative flux reductions during such episodes are sufficient to cause regional climate change
Latewood Ring Width Reveals CE 1734 Felling Dates for Walker House Timbers In Tupelo, Mississippi, USA
Dendroarchaeology is under-represented in the Gulf Coastal Plain region of the United States (US), and at present, only three published studies have precision dated a collection of 18th–19th-century structures. In this study, we examined the tree-ring data from pine, poplar, and oak timbers used in the Walker House in Tupelo, Mississippi. The Walker House was constructed ca. the mid-1800s with timbers that appeared to be recycled from previous structures. In total, we examined 30 samples (16 pines, 8 oaks, and 6 poplars) from the attic and crawlspace. We cross-dated latewood ring growth from the attic pine samples to the period 1541–1734 (r = 0.52, t = 8.43, p \u3c 0.0001) using a 514-year longleaf pine (Pinus palustris Mill.) latewood reference chronology from southern Mississippi. The crawlspace oak samples produced a 57-year chronology that we dated against a white oak (Quercus alba L.) reference chronology from northeast Alabama to the period 1765–1822 (r = 0.36, t = 2.83, p \u3c 0.01). We were unable to cross-date the six poplar samples due to a lack of poplar reference chronologies in the region. Our findings have two important implications: (1) the pine material dated to 1734 represents the oldest dendroarchaeology-confirmed dating match for construction materials in the southeastern US, and (2) cross-dating latewood growth for southeastern US pine species produced statistically significant results, whereas total ring width failed to produce significant dating results
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