• Picture of Prof. Nachum Ulanovsky

    Prof. Nachum Ulanovsky

    * Neurophysiological recordings of individual neurons in freely flying bats, using radio-telemetry -- in hippocampus and entorhinal cortex
    * The neural basis of behavior
    * From the bat's biological sonar system to spatial cognition
    * Mammalian hippocampus (hippocampal place cells) and entorhinal cortex (grid cells)
    * Neuronal circuits: hippocampal and entorhinal neural activity in freely-behaving echolocating bats
    * Neural codes for 2-D and 3-D space in the mammalian brain
    * Neurobiology of learning and memory: a systems neuroscience approach

    Homepage
  • Picture of Prof. Nachum Ulanovsky

    Prof. Nachum Ulanovsky

    * Neurophysiological recordings of individual neurons in freely flying bats, using radio-telemetry -- in hippocampus and entorhinal cortex
    * The neural basis of behavior
    * From the bat's biological sonar system to spatial cognition
    * Mammalian hippocampus (hippocampal place cells) and entorhinal cortex (grid cells)
    * Neuronal circuits: hippocampal and entorhinal neural activity in freely-behaving echolocating bats
    * Neural codes for 2-D and 3-D space in the mammalian brain
    * Neurobiology of learning and memory: a systems neuroscience approach

    Homepage
  • Picture of Prof. Nachum Ulanovsky

    Prof. Nachum Ulanovsky

    * Neurophysiological recordings of individual neurons in freely flying bats, using radio-telemetry -- in hippocampus and entorhinal cortex
    * The neural basis of behavior
    * From the bat's biological sonar system to spatial cognition
    * Mammalian hippocampus (hippocampal place cells) and entorhinal cortex (grid cells)
    * Neuronal circuits: hippocampal and entorhinal neural activity in freely-behaving echolocating bats
    * Neural codes for 2-D and 3-D space in the mammalian brain
    * Neurobiology of learning and memory: a systems neuroscience approach

    Homepage
  • Picture of Prof. Nachum Ulanovsky

    Prof. Nachum Ulanovsky

    * Neurophysiological recordings of individual neurons in freely flying bats, using radio-telemetry -- in hippocampus and entorhinal cortex
    * The neural basis of behavior
    * From the bat's biological sonar system to spatial cognition
    * Mammalian hippocampus (hippocampal place cells) and entorhinal cortex (grid cells)
    * Neuronal circuits: hippocampal and entorhinal neural activity in freely-behaving echolocating bats
    * Neural codes for 2-D and 3-D space in the mammalian brain
    * Neurobiology of learning and memory: a systems neuroscience approach

    Homepage