Current Tandem Projects
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New TP Busse/Leibold: Coding in thalamo-cortical circuits: influence of behavioral state
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TP Busse/Wachtler_1: Contextual modulations of neuronal representations and perception by stimulus and reward history
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TP Busse/Wachtler_2: Inference of synaptic connectivity from contrast-invariant orientation tuning in the early visual system
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TP Deubel/Grothe 1: Attentional Selection in the Context of Saccadic Eye Movements
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TP Deubel/Grothe 2: Processing of audio-visual space across eye movements
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TP Dieterich/Brandt, Glasauer: Hemispheric lateralization and dominance in vestibular and visual cortex during circularvection
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New TP Dieterich/Straka: Dynamic rebalancing of visuo-vestibular signals after a unilateral loss of inner ear function
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New TP Eggert/Straube: Brain activity in encoding and retrieval of explicit spatial memory
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TP Geyer/Müller: Modelling cognition my means of evolutionary mechanisms
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TP Grothe/Leibold: Plasticity of spatial coding in auditory cortex
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TP Hübener/Leibold: Changes in the population code reflecting associative learning in mouse visual cortex
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New TP Lehnen/Shi: Altered interaction between prior and sensory input in patients with functional symptoms
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TP Lehnen/Wachtler: Perception in Bodily Distress Disorders
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TP Leibold/Grothe: Hippocampal signals of sound location
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New TP Müller/Grothe/Liesefeld: Guidance and capture of spatial attention by (irrelevant) visual and auditory events
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TP Ruscheweyh/Flanagin: Supraspinal correlates of learned activation of descending pain inhibition in humans
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TP Shi/Wachtler 1: Contextual Biases in space and time
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New TP Shi/Wachtler 2: Eye movement statistics and perception
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TP Sirota/Straka: Exploring sensory mismatch in rats using electrophysiology and virtual reality RatCAVE setup
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TP Straka/Dieterich: Brainstem Plasticity following Embryonic Ear Manipulations
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TP Straka/Leibold Central representation of locomotor correlates at the neuronal population level
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TP Töllner/Müller: The neural correlates of human cognition during physical activity and exercise