about
Human posterior auditory cortex gates novel sounds to consciousnessA novel mechanism for evoked responses in the human brainFunctional specialization of the human auditory cortex in processing phonetic and musical sounds: A magnetoencephalographic (MEG) study.Effect of task-related extracerebral circulation on diffuse optical tomography: experimental data and simulations on the forehead.Suppressing multi-channel ultra-low-field MRI measurement noise using data consistency and image sparsity.TMS-evoked changes in brain-state dynamics quantified by using EEG dataPreparation and execution of teeth clenching and foot muscle contraction influence on corticospinal hand-muscle excitability.Sensorimotor cortex localization: comparison of magnetoencephalography, functional MR imaging, and intraoperative cortical mapping.Consensus paper: combining transcranial stimulation with neuroimaging.Solving the problem of concomitant gradients in ultra-low-field MRI.Magnetic-stimulation-related physiological artifacts in hemodynamic near-infrared spectroscopy signalsSpontaneous hemodynamic oscillations during human sleep and sleep stage transitions characterized with near-infrared spectroscopyUncovering neural independent components from highly artifactual TMS-evoked EEG data.Interpreting magnetic fields of the brain: minimum norm estimates.Language-specific phoneme representations revealed by electric and magnetic brain responses.Electrophysiological evidence for cross-modal plasticity in humans with early- and late-onset blindness.Cyclic alternating pattern is associated with cerebral hemodynamic variation: a near-infrared spectroscopy study of sleep in healthy humansA contemporary research topic: manipulative approaches to human brain dynamics.Transcranial magnetic stimulation: applications for neuropsychopharmacology.Noise amplification in parallel whole-head ultra-low-field magnetic resonance imaging using 306 detectors.Comparison of spherical and realistically shaped boundary element head models for transcranial magnetic stimulation navigation.Parallel input makes the brain run faster.Conductive shield for ultra-low-field magnetic resonance imaging: Theory and measurements of eddy currents.Brain signatures of meaning access in action word recognition.Visual attention to words in different languages in bilinguals: a magnetoencephalographic study.Context modulates processing of speech sounds in the right auditory cortex of human subjects.Pitch change of a continuous tone activates two distinct processes in human auditory cortex: a study with whole-head magnetometer.Minimum-Norm Estimation of Motor Representations in Navigated TMS Mappings.Blind Source Separation of Event-Related EEG/MEG.Recovering TMS-evoked EEG responses masked by muscle artifacts.Rotary scanning acquisition in ultra-low-field MRI.Models of source currents in the brain.Minimum-energy coils for transcranial magnetic stimulation: application to focal stimulation.The Frequency-Dependent Neuronal Length Constant in Transcranial Magnetic Stimulation.Methodology for combined TMS and EEG.The relationship between peripheral and early cortical activation induced by transcranial magnetic stimulation.EEG oscillations and magnetically evoked motor potentials reflect motor system excitability in overlapping neuronal populations.Ethanol modulates cortical activity: direct evidence with combined TMS and EEG.No evidence for dependence of early cortical auditory processing on dopamine D(2)-receptor modulation: a whole-head magnetoencephalographic study.Multi-trial evoked EEG and independent component analysis.
P50
Q24564674-5F806B21-BCA0-45E0-814E-EE7E6307D5C9Q29040846-62489297-AA1F-44D7-87EB-3E5C4BDDE342Q30538668-03ABCE76-559F-4F93-AF6C-EA3BA0E1B240Q30600972-8CFB0CCE-F7D9-4AB4-AA4E-44EE3ED8665EQ30620422-B006BCEA-52B0-4371-96E8-29D6ECBADD4DQ30620566-2CC1CE23-0D07-4A84-98E5-E678D02F71B7Q30836084-D727BC10-E031-468B-8F96-45A51B646E3BQ31054294-85EED207-A529-40B6-A569-5202DB947D31Q33633495-A60245AE-01B8-4C1C-AC5E-5012BB81B176Q33706797-5D213FEC-A1C0-481F-A189-F5E01FE337BCQ34009771-5B42D661-63F4-43C9-AC92-0866D9647F67Q34063568-58D44799-091F-4C9B-A52C-28A19158C213Q34300324-3BEC2669-CDD0-4F9E-9CDA-E558DD889799Q34341126-C5634C59-3C12-4E96-ABE4-EA4AA646B578Q34414460-5AC809F2-978C-4119-9657-C81A54005C6AQ34420643-67DBBCD9-3415-47E7-81C7-199D0E6C3ABAQ34447574-AB456614-5083-4030-8A99-E9C3606528B3Q35153605-5FC410D0-79F8-4212-81B5-192B8F9C796EQ35839575-10FA7D85-7AE4-458A-95DC-186C251F7371Q36997023-F2C9CFF3-4509-45A1-BCE1-41BF4E884CE8Q37215942-3824D0E1-31BC-4FD9-8AEA-78D5E24006A8Q37259651-4536FAF8-E9F0-4207-AFF3-25EF058C5F25Q37688581-E499E9BC-2CF1-464D-8F9B-C315AEC41253Q38414421-961EB5E9-5D75-4263-830D-C9F14869AB49Q38430818-B8F39C62-4811-4595-A102-60C10E28E310Q38432281-CD7E7CE2-B124-44E0-80B8-B15DBF7313CDQ38575514-B3450CD1-79EB-406C-B4FF-FB265CD90688Q38672938-A2545590-31A1-49BD-980D-BC0A7C9D6724Q39005387-36607EB7-E7F6-4FE0-AA6C-F3B57992F535Q39690289-9CD02C44-3870-428D-98CE-EE4BA7849CDDQ40785639-C9135AB4-285D-4F90-87A1-60781888137DQ40838481-D5497381-D9FB-41EC-A4E9-0F24A79154EDQ41744460-07922D5D-6E5C-4A92-87CE-DC3F02A62F6BQ41812707-A29DAC9A-543C-44BA-A408-0294DB14A291Q42944952-8D08885C-546C-455A-8532-6F9B0A9C2D39Q43077421-A6977965-6691-4E75-B5FC-FABE078B9238Q43186752-A48C3A2B-58CF-479E-B120-757B07A5DD49Q43684439-A4315AC0-089F-4251-B0CA-EB200B381F11Q43724644-C26C9665-50C6-445F-888E-285246D4667FQ43734016-29FBAF26-14FA-4EC0-AB1E-BFC05B3B6A67
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Risto J. Ilmoniemi
@ast
Risto J. Ilmoniemi
@en
Risto J. Ilmoniemi
@es
Risto J. Ilmoniemi
@nl
Risto J. Ilmoniemi
@sl
type
label
Risto J. Ilmoniemi
@ast
Risto J. Ilmoniemi
@en
Risto J. Ilmoniemi
@es
Risto J. Ilmoniemi
@nl
Risto J. Ilmoniemi
@sl
altLabel
Risto
@en
prefLabel
Risto J. Ilmoniemi
@ast
Risto J. Ilmoniemi
@en
Risto J. Ilmoniemi
@es
Risto J. Ilmoniemi
@nl
Risto J. Ilmoniemi
@sl
P1053
E-9704-2012
P106
P108
P1153
7005857614
P21
P31
P3829
P496
0000-0002-3340-2618