Heteroepitaxial growth of ferromagnetic MnSb(0001) films on Ge/Si(111) virtual substrates

Molecular beam epitaxial growth of ferromagnetic MnSb(0001) has been achieved on high quality, fully relaxed Ge(111)/Si(111) virtual substrates grown by reduced pressure chemical vapor deposition. The epilayers were characterized using reflection high energy electron diffraction, synchrotron hard X-ray diffraction, X-ray photoemission spectroscopy, and magnetometry. The surface reconstructions, magnetic properties, crystalline quality, and strain relaxation behavior of the MnSb films are similar to those of MnSb grown on GaAs(111). In contrast to GaAs substrates, segregation of substrate atoms through the MnSb film does not occur, and alternative polymorphs of MnSb are absent

Localizing evoked and induced responses to faces using magnetoencephalography

A rich pattern of responses in frequency, time and space are known to be generated in the visual cortex in response to faces. Recently, a number of studies have used magnetoencephalography (MEG) to try to record these responses non-invasively – in many cases using source analysis techniques based on the beamforming method. Here we sought both to characterize best practice for measuring face-specific responses using MEG beamforming, and to determine whether the results produced by the beamformer match evidence from other modalities. We measured activity to visual presentation of face stimuli and phase-scrambled control stimuli, and performed source analyses of both induced and evoked responses using Synthetic Aperture Magnetometry. We localized the gamma-band response to bilateral lateral occipital cortex, and both the gamma-band response and the M170-evoked response to the right fusiform gyrus. Differences in the gamma-band response between faces and scrambled stimuli were confined to the frequency range 50–90 Hz; gamma-band activity at higher frequencies did not differ between the two stimulus categories. We additionally identified a component of the M220-evoked response – localized to the parieto-occipital sulcus – which was enhanced for scrambled vs. unscrambled faces. These findings help to establish that MEG beamforming can localize face-specific responses in time, frequency and space with good accuracy (when validated against established findings from functional magnetic resonance imaging and intracranial recordings), as well as contributing to the establishment of best methodological practice for the use of the beamformer method to measure face-specific responses

Common cortical responses evoked by appearance, disappearance and change of the human face

<p>Abstract</p> <p>Background</p> <p>To segregate luminance-related, face-related and non-specific components involved in spatio-temporal dynamics of cortical activations to a face stimulus, we recorded cortical responses to face appearance (Onset), disappearance (Offset), and change (Change) using magnetoencephalography.</p> <p>Results</p> <p>Activity in and around the primary visual cortex (V1/V2) showed luminance-dependent behavior. Any of the three events evoked activity in the middle occipital gyrus (MOG) at 150 ms and temporo-parietal junction (TPJ) at 250 ms after the onset of each event. Onset and Change activated the fusiform gyrus (FG), while Offset did not. This FG activation showed a triphasic waveform, consistent with results of intracranial recordings in humans.</p> <p>Conclusion</p> <p>Analysis employed in this study successfully segregated four different elements involved in the spatio-temporal dynamics of cortical activations in response to a face stimulus. The results show the responses of MOG and TPJ to be associated with non-specific processes, such as the detection of abrupt changes or exogenous attention. Activity in FG corresponds to a face-specific response recorded by intracranial studies, and that in V1/V2 is related to a change in luminance.</p

The influence of top-down modulation on the processing of direct gaze

Gaze or eye contact is one of the most important non-verbal social cues, which is fundamental to human social interactions. To achieve real time and dynamic face-to-face communication, our brain needs to process another person's gaze direction rapidly and without explicit instruction. In order to explain fast and spontaneous processing of direct gaze, the fast-track modulator model (Senju & Johnson, 2009) was proposed. Here, we review recent developments in gaze processing research in the last decade to extend the fast-track modulator model. In particular, we propose that task demand or top-down modulation could play a more crucial role at gaze processing than formerly assumed. We suggest that under different task demands, top-down modulation can facilitate or interfere with the direct gaze effects for early visual processing. The proposed modification of the model extends the role of task demand and its implication on the direct gaze effect, as well as the need to better control for top-down processing in order to better disentangle the role of top-down and bottom-up processing on the direct gaze effect

Untersuchung von Gesichterpriming und Lokalisation dipolarer Quellorte der Gesichterverarbeitung in Magneto- und Elektroenzephalogramm

Die Verarbeitung unbekannter und visuell vertrauter Gesichter wurde mittels simultaner Messung von Elektroenzephalogramm (EEG), Magnetoenzephalogramm (MEG) und Verhaltensreaktionen untersucht. Dipollokalisationen zeigten, dass MEG und EEG bei 170 ms und 400 bis 500 ms nach Beginn von Gesichterdarbietungen Aktivierung der posterioren Gyri fusiformes (GF) abbilden. Damit konnten beide Zeitbereiche als Aktivität des fusiformen Gesichterareals interpretiert werden. In einem Primingparadigma wurde bei viermaliger Wiederholung unbekannter Gesichter ein Reaktionszeitpriming gezeigt, das für Wiederholungen mit einem Zeitabstand (Lag) von Sekunden stärker als für mehrere Minuten war. Im EEG bewirkten nur Wiederholungen mit kurzem Lag einen Wiederholungseffekt von 300 ms bis 600 ms an posterioren und zentralen Elektroden. Dieser wurde als Korrelat impliziter Gedächtnisverarbeitung von Gesichtern im GF interpretiert. Ein frontaler Wiederholungseffekt ab 700 ms wurde als Ausdruck inzidentellen Erkennens der Gesichterwiederholungen angesehen. Das MEG zeigte posterior einen Wiederholungseffekt ab 800 ms für das kurze Lag. Für das lange Lag wurden keine MEG- oder EEG-Effekte gefunden. Die Wiederholung des Primingexperimentes mit den in einem Lerntraining vertraut gewordenen Gesichtern erzeugte eine generelle Verkürzung der Reaktionszeiten, aber eine Abschwächung des Primingeffektes für das kurze Lag und einen Verlust der Abhängigkeit der Primingstärke vom Zeitabstand. Diese Veränderungen gingen im EEG mit dem Trend zur Verstärkung des posterioren Wiederholungseffektes ab 500 ms einher. Im MEG konnte für die vertrauten Gesichter ein dem EEG in Zeit und Entstehungsort analoger Wiederholungseffekt gezeigt werden. Die Ergebnisse der Untersuchung von Priming bringen Evidenz für die Existenz von Primingeffekten für unbekannte Gesichter. Sie zeigen die Abhängigkeit der Primingeffekte vom Wiederholungsabstand und die Veränderung von Primingeffekten beim Erwerb visueller Vertrautheit.The processing of unfamiliar and visually familiar faces was examined in a simultaneous measurement of Electroencephalogram (EEG), Magnetoencephalogram (MEG) and behavioural reactions during the presentation of a priming task. Dipole modelling on the EEG and MEG data localized activity in posterior fusiform gyri around 170 ms and between 400 and 500 ms post stimulus onset. Both time ranges were interpreted as activity correlates of the fusiform face area. In the priming paradigm unfamiliar faces were repeated four times. A reaction time priming effect could be shown. This effect was stronger for a short lag (seconds) between repetitions than for minutes. In EEG, only repetitions with short lag evoked a repetition effect at posterior and central electrodes between 300 and 600 ms. This effect was interpreted as a correlate of implicit memory processes presumably generated in the fusiform gyrus. A frontal repetition effect starting around 700 ms was considered a reflection of the incidental recognition of the face repetitions. The MEG data showed a repetition effect for the short lag starting at 800 ms. No electrophysiological effects of face repetition were found for the long lag. Some months later, the same subjects were visually familiarized with the faces in three learning sessions and the priming experiment was repeated. An overall shortening of reaction times was found together with a weakening of the priming effect for the short lag and an absence of the lag’s influence on the strength of the priming effects. In the EEG data a trend for a strengthening of the posterior repetition effect from 500 ms onward emerged. The MEG data yielded a repetition effect for the familiar faces that was analogous to the EEG effect. The results of the priming task give evidence for the existence of priming effects for unfamiliar and familiar faces. They furthermore demonstrate the dependency of priming effects on the lag between repetitions and the visual familiarity of the faces

The 170ms Response to Faces as Measured by MEG (M170) Is Consistently Altered in Congenital Prosopagnosia

<div><p>Modularity of face processing is still a controversial issue. Congenital prosopagnosia (cPA), a selective and lifelong impairment in familiar face recognition without evidence of an acquired cerebral lesion, offers a unique opportunity to support this fundamental hypothesis. However, in spite of the pronounced behavioural impairment, identification of a functionally relevant neural alteration in congenital prosopagnosia by electrophysiogical methods has not been achieved so far. Here we show that persons with congenital prosopagnosia can be distinguished as a group from unimpaired persons using magnetoencephalography. Early face-selective MEG-responses in the range of 140 to 200ms (the M170) showed prolonged latency and decreased amplitude whereas responses to another category (houses) were indistinguishable between subjects with congenital prosopagnosia and unimpaired controls. Latency and amplitude of face-selective EEG responses (the N170) which were simultaneously recorded were statistically indistinguishable between subjects with cPA and healthy controls which resolves heterogeneous and partly conflicting results from existing studies. The complementary analysis of categorical differences (evoked activity to faces minus evoked activity to houses) revealed that the early part of the 170ms response to faces is altered in subjects with cPA. This finding can be adequately explained in a common framework of holistic and part-based face processing. Whereas a significant brain-behaviour correlation of face recognition performance and the size of the M170 amplitude is found in controls a corresponding correlation is not seen in subjects with cPA. This indicates functional relevance of the alteration found for the 170ms response to faces in cPA and pinpoints the impairment of face processing to early perceptual stages.</p></div