In this Perspective, Wolf and Ertl discuss results by Kliewer et al. (page 1399) and Petek et al. (page 1402), which illustrate the fundamental insights into the microscopic characteristics of electron dynamics at surfaces that can be obtained by state - of - the - art high spatial and
temporal resolution studies.
Not exact matches
The ability to capture selected - area - image dynamics with pixel
resolution and to control the time separation between pulses for
temporal cooling of the specimen made possible
studies of fleeting structures and morphologies.
Through analysis of high -
resolution anatomical magnetic resonance imaging of brain volumes, taken three times over the two - year
study period, the researchers were able to determine that individuals with MCI or Alzheimer's showed greater losses in gray matter volume in both the basal forebrain and
temporal lobe, compared with cognitively normal controls.
Studies with better
temporal and spatial
resolution could help to reveal why nanocatalyst functionality is lost over time.
Although non-invasive methods to explore brain function in humans such as functional imaging and EEG / MEG have been informative regarding the potential role of a given brain area in a particular cognitive function, they lack the necessary
temporal and spatial
resolution to
study brain microcircuits.
The microscope will allow detailed
study of chemical and biological structures with nanosecond to microsecond
temporal resolution.
Unlike other
studies on p53, however, which target cell populations that average many cells together, Dr. Lahav developed a new approach, quantifying p53 at high
temporal resolution in single cells and taking into account that «individual cell decisions are crucial in the development and treatment of cancer.»
Prior to Joining IDRI, Matthew worked at the Institut de Biologie Integrative de la Cellule, France with Dr. Frederic Boccard applying super
resolution microscopy to
study the
temporal and spatial localization of proteins involved in bacterial chromosome organization.
Objective: To
study, at high spatial and
temporal resolution, the conformational dynamics of the nicotinic receptors enabling neuronal communication in the brain, which are major therapeutic targets linked to cognition and tobacco dependence.
«This money will help us develop completely new optical methods to
study dynamics in the living cell at very high spatial and
temporal resolution.»
The scientific strategy of the CNM unites three crosscutting and interdependent scientific themes that collectively aim at the discovery and integration of materials across different length scales
studied at the extremes of
temporal, spatial, and energy
resolutions.
Our
study did not directly address this question because the paleotemperature records used in our
study have a
temporal resolution of ~ 120 years on average, which precludes us from examining variations in rates of change occurring within a century.
«These projections for Europe are partially in agreement with
studies based on datasets with much higher spatial and
temporal resolution.
When pressed on their findings, the authors of the Marcott
study admitted that «the paleotemperature records used in our
study have a
temporal resolution of about 120 years on average.»
The point ‐ wise information will correspond to the locations and
temporal resolution of all available proxy records from paleo sea level
studies (Kopp et al. 2016) and random noise will be added to each mimicking the limitations of actual proxy records.
A recent
study quantified the effects of spatial and
temporal sampling
resolution on diffusive and ebullitive CH4 emission estimates from 3 shallow boreal lakes and found that low sampling coverage is more likely to lead to underestimates of flux than overestimates (72 % chance of flux underestimation when bubble trap sampling is limited to 1 — 3 days; Wik et al. 2016).
Meanwhile, the few
studies that involve a higher spatial
resolution generally do so by sacrificing the
temporal coverage of the data, providing them with a «case
study» point of view of a particular weather event, rather than robust statistics required for an understanding of climate.
A: Our
study did not directly address this question because the paleotemperature records used in our
study have a
temporal resolution of ~ 120 years on average, which precludes us from examining variations in rates of change occurring within a century.
Verifiable features The 2011 Kinnard «blade» is stronger than the 2013 Marcott «blade» in that the 20th century «blade» of the Kinnard
study (a) reflects far more proxies (69 for Kinnard et al.) and (b) has far finer
temporal resolution (5 years for Kinnard et al.), and (c) reflects are far sharper, far more priminent «blade» (blade - to - noise ratio of order 3 - 5 for Kinnard et al.).
Additionally, the report considers the expectations of the quality and spatial and
temporal resolution possible through such approaches, and the prototype sensors that are available that could be used for detailed ground calibration of permafrost / high latitude carbon cycle
studies.
In order to
study if an underrepresentation of weak magnetic fields in the Carrington rotation synoptic charts is the explanation for the difference between our model and the observation, full - disk images with higher spatial and
temporal resolution should be analyzed in future.
The set - up of the numerical experiments suggests that the
temporal resolution of the atmospheric forcing field is responsible for the significant increase in vertical velocities, in agreement with previous
studies (Danioux et al., 2008; Komori et al., 2008).