49 research outputs found
Comparison of ophthalmic training in 6 English-speaking countries
OBJECTIVE:
To compare key characteristics of ophthalmology training programs in 6 different English-speaking countries: Australia, New Zealand, Canada, Ireland, the United Kingdom, and the United States.
PARTICIPANTS:
Seven ophthalmologists with personal knowledge of all 6 systems contributed.
METHODS:
The main features examined were career pathway, duration of training, surgical training, governing bodies, and examination structure. Data were collected from the literature, online resources, and personal experience.
RESULTS:
Several differences were highlighted, including length of training (ranging from 4 to 9 years after medical school), number of surgical procedures such as cataracts (ranging from minimum 86 to approximately 600), and structure of fellowship training.
CONCLUSIONS:
As trainees increasingly seek international experience to enhance their knowledge and skills, the similarities and differences between training programs in different countries have become more relevant. Some of these differences may reflect differing needs of different patient populations and different healthcare delivery systems across the globe. However, these differences should also prompt educators to more carefully scrutinize their own training system and search for potential improvements
Small Band Gap Polymers Synthesized via a Modified Nitration of 4,7-Dibromo-2,1,3-benzothiadiazole
The nitration of 4,7-dibromo-2,1,3-benzothiadiazole was modified by using CF3SO3H and HNO3 as the nitrating agent, and the related yield was improved greatly. On the basis of this improvement, two new small band gap polymers, P1TPQ and P3TPQ, were developed. Bulk heterojunction solar cells based on P3TPO and [6,6]-phenyl-C-71-butyric acid methyl ester exhibit interesting results with a power conversion efficiency of 21% and photoresponse up to 1.1 mu
Expanded Multiband Super-Nyquist CAP Modulation for Highly Bandlimited Organic Visible Light Communications
In this article, we experimentally demonstrate a novel expanded nonorthogonal multiband super-Nyquist carrier-less amplitude and phase (m-ESCAP) modulation for bandlimited organic visible light communication (VLC) systems. The proposed scheme has the same bandwidth requirement as the conventional m-CAP while breaking the orthogonality between subcarriers by purposely overlapping them. We compare m-ESCAP with the conventional m-CAP and a compressed nonorthogonal version of m-CAP (m-SCAP) in terms of measured bit error rate (BER) performance, bit rates, and spectral efficiencies. We show that the m-ESCAP system offers improvement in the bit rate of 10% and 20% compared to the m-CAP and m-SCAP, respectively, and in the spectral efficiency of 20% compared to m-CAP. These gains are achieved at the cost of increased BER, which, however, remains below the 7% forward error correction limit
Experimental demonstration of staggered cap modulation for low bandwidth red-emitting polymer-LED based visible light communications
In this paper we experimentally demonstrate, for the first time, staggered carrier-less amplitude and phase (sCAP) modulation for visible light communication systems based on polymer light-emitting diodes emitting at ∼639 nm. The key advantage offered by sCAP in comparison to conventional multiband CAP is its full use of the available spectrum. In this work, we compare sCAP, which utilises four orthogonal filters to generate the signal, with a conventional 4-band multi-CAP system and on-off keying (OOK). We transmit each modulation format with equal energy and present a record un-coded transmission speed of ∼6 Mb/s. This represents gains of 25% and 65% over the achievable rate using 4-CAP and OOK, respectively
In situ, broadband measurement of the radio frequency attenuation length at Summit Station, Greenland
Over the last 25 years, radiowave detection of neutrino-generated signals,
using cold polar ice as the neutrino target, has emerged as perhaps the most
promising technique for detection of extragalactic ultra-high energy neutrinos
(corresponding to neutrino energies in excess of 0.01 Joules, or
electron volts). During the summer of 2021 and in tandem with the initial
deployment of the Radio Neutrino Observatory in Greenland (RNO-G), we conducted
radioglaciological measurements at Summit Station, Greenland to refine our
understanding of the ice target. We report the result of one such measurement,
the radio-frequency electric field attenuation length . We find an
approximately linear dependence of on frequency with the best fit of
the average field attenuation for the upper 1500 m of ice: MHz m for
frequencies MHz.Comment: 13 pages, 8 figures, Accepted to Journal of Glaciolog
Precision measurement of the index of refraction of deep glacial ice at radio frequencies at Summit Station, Greenland
Glacial ice is used as a target material for the detection of ultra-high
energy neutrinos, by measuring the radio signals that are emitted when those
neutrinos interact in the ice. Thanks to the large attenuation length at radio
frequencies, these signals can be detected over distances of several
kilometers. One experiment taking advantage of this is the Radio Neutrino
Observatory Greenland (RNO-G), currently under construction at Summit Station,
near the apex of the Greenland ice sheet. These experiments require a thorough
understanding of the dielectric properties of ice at radio frequencies. Towards
this goal, calibration campaigns have been undertaken at Summit, during which
we recorded radio reflections off internal layers in the ice sheet. Using data
from the nearby GISP2 and GRIP ice cores, we show that these reflectors can be
associated with features in the ice conductivity profiles; we use this
connection to determine the index of refraction of the bulk ice as n=1.778 +/-
0.006
Search for low-mass dark matter via bremsstrahlung radiation and the Migdal effect in SuperCDMS
We present a new analysis of previously published SuperCDMS data using a profile likelihood framework to search for sub-GeV dark matter (DM) particles through two inelastic scattering channels: bremsstrahlung radiation and the Migdal effect. By considering these possible inelastic scattering channels, experimental sensitivity can be extended to DM masses that are undetectable through the DM-nucleon elastic scattering channel, given the energy threshold of current experiments. We exclude DM masses down to 220 MeV/c2 at 2.7×10−30 cm2 via the bremsstrahlung channel. The Migdal channel search provides overall considerably more stringent limits and excludes DM masses down to 30 MeV/c2 at 5.0×10−30 cm2
Ultrafast excited state dynamics of a bithiophene‐isoindigo copolymer obtained by direct arylation polycondensation and its application in indium tin oxide‐free solar cells
A low band gap copolymer, P2TI (Eg = 1.6.eV), with bithiophene as donor and isoindigo as acceptor units is designed and synthesized by the direct arylation polycondensation (DAP) method. Absorbance of the polymer spans from 300 to 780 nm. It exhibits an absorption coefficient (ε) of 96 L/g cm in solution at its maxima. A HOMO level of −5.42 eV and LUMO level of −3.72 eV is measured by square wave voltammetry. ITO‐free solar cells fabricated using a P2TI:PCBM71 bulk heterojunction shows a moderate efficiency of 1.02% with a high open circuit voltage of 0.81 V. An intramolecular charge transfer state is found in the relaxation of P2TI in solution, which is generated with a time constant of 2 ps as measured by femtosecond‐transient absorption spectroscopy. Charge carriers were generated in <250 fs in P2TI:PCBM71 films