Kontakt

Leitung

Prof. Dr. Christoph Herrmann

Geschäftsstelle

Helge Deitermann

+49 (0)441 798–3815

+49 (0)441 798–3865

Anschrift

Carl von Ossietzy Universität Oldenburg
Fakultät VI - Medizin und Gesundheitswissenschaften
Abt. Allgemeine Psychologie
Dep. für Psychologie
Ammerländer Heerstr. 114-118
26129 Oldenburg

Anreise und Campusplan

 

Zeitschriftenartikel

2024

Bömmer T, Schmidt LM, Meier K, Kricheldorff J, Stecher H, Herrmann CS, Thiel CM, Janitzky K, Witt K (accepted).
Impact of Stimulation Duration in taVNS – Exploring Multiple Physiological and Cognitive Outcomes.
Brain Sciences 

Paßmann S, Baselgia S, Kasten FH, Herrmann CS, Rasch B (in press). 
Differential online and offline effects of theta-tACS on memory encoding and retrieval.
Cogn Affect Behav Neurosci.
[PubMed]

Kasten FH, Lattmann R, Strüber D, Herrmann CS (2024).
Decomposing the effects of α-tACS on brain oscillations and aperiodic 1/f activity.
Brain Stimulation 17(3):721-723, 2024.
[PubMed]

Boetzel C, Stecher HI, Herrmann CS (2024).
Aligning Event-Related Potentials with Transcranial Alternating Current Stimulation for Modulation - a Review.
Brain Topography, online ahead of print, 2024.
[PubMed]

Baselgia S, Kasten FH, Herrmann CS, Rasch B, Paßmann S. (2024).
No benefit in memory performance after nocturnal memory reactivationcoupled with theta-tACS,
Clocks & Sleep. 2024 Mar 25;6(2):211-233.
[PubMed]

Brilliant, Yaar-Soffer Y, Herrmann CS, Henkin Y, Kral A (2024).
Theta and alpha oscillatory signatures of auditory sensory and cognitive loads during complex listening.
Neuroimage. 2024 Apr 1;289:120546.
[PubMed]

Boetzel C, Stecher HI, Kasten FH, Herrmann CS (2024).
Modulating the difficulty of a visual oddball-like task and P3m amplitude.
Scientific reports 14(1):1505.
[PubMed]

Kannen K, Rasbach J, Fantazi A, Wiebe A, Selakowski B, Asche L, Aslan B, Lux S, Herrmann CS, Philipsen A, Braun N (2024).
Alpha Modulation via Transcranial Alternating Current Stimulation in Adults with Attention-Deficit Hyperactivity Disorder.
Frontiers Psychology 14:1280397.
[PubMed]

2023

Löffler B, Stecher HI, Meiser A, Fudickar S, Hein A, Herrmann CS (2023).
Attempting to Counteract Vigilance Decrement in Older Adults with Brain Stimulation.
Frontiers in Neuroergonomics 4:1201702.
[PubMed]

Vogeti S, Faramarzi M, Herrmann CS (2023).
Alpha transcranial alternating current stimulation modulates auditory perception.
Brain Stimulation, 16(6):1646-1652.
[PubMed]

Boetzel C, Stecher HI and Herrmann CS (2023).
ERP-aligned delta transcranial alternating current stimulation modulates the P3 amplitude.
International Journal of Psychophysiology, Nov;193:112247.
[PubMed]

Radecke JO, Fiene M, Misselhorn J, Herrmann CS, Engel AK, Wolters CH, Schneider TR (2023).
Personalized alpha-tACS targeting left posterior parietal cortex modulates visuo-spatial attention and posterior evoked EEG activity.
Brain Stimulation, 16(4):1047-1061.
[PubMed]

Schäring U, Emkes R, Strüber D, Schorer J, Herrmann CS (2023).
Effekte transkranieller Wechselstromstimulation auf das Putten bei fortgeschrittenen Golfern.
Zeitschrift für Neuropsychologie, 34, pp. 147-154
https://doi.org/10.1024/1016-264X/a000379

2022

Kast FH, Herrmann CS (2022).
The hidden brain-state dynamics of tACS aftereffects.
Neuroimage 264:119713.
[PubMed]

von Conta J, Kasten FH, Curcik-Blake B, Schellhorn K, Herrmann CS (2022).
Characterizing Low-Frequency Artifacts During Transcranial Temporal Interference Stimulation (tTIS).
Neuroimage Reports 2(3),

von Conta J, Kasten FH, Schellhron K, Curcik-Blake B, Aleman A, Herrmann CS (2022).
Benchmarking the Effects of Transcranial Temporal Interference Stimulation (tTIS) in Humans.
Cortex 154: 299-310.
[PubMed]

Kannen K, Aslan K, Boetzel C, Herrmann CS, Lux S, Rosen H, Selaskowski B, Wiebe A, Philipsen A, Braun N (2022).
P300 Modulation via Transcranial Alternating Current Stimulation in Adult Attention-Deficit / Hyperactivity Disorder: a Crossover Study.
Frontiers in Psychiatry 13:928145.
[PubMed]

Kricheldorff J, Kiebs M, Goeke K, Kasten F, Herrmann CS, Witt K, Hurlemann R (2022).
Evidence for neuroplastic changes after transcranial magnetic, electric and deep brain stimulation.
Brain Sciences 12(7):929.
[PubMed]

Antal A, Luber B, Brem AK, Bikson M, Brunoni AR, Cohen Kadosh R, Dubljević V, Fecteau S, Ferreri F, Flöel A, Hallett M, Hamilton RH, Herrmann CS, Lavidor M, Loo C, Lustenberger C, Machado S, Miniussi C, Moliadze V, Nitsche MA, Rossi S, Rossini PM, Santarnecchi E, Seeck M, Thut G, Turi Z, Ugawa Y, Venkatasubramanian G, Wenderoth N, Wexler A, Ziemann U, Paulus W (2022).
Non-invasive brain stimulation and neuroenhancement.
Clinical Neurophysiology 7:146-165.
[PubMed]

Ekhtiari H, Ghobadi-Azbari P, Thielscher A, Antal A, Li LM, Shereen AD, Cabral-Calderin Y, Keeser D, Bergmann TO, Jamil A, Violante IR, Almeida J, Meinzer M, Siebner HR, Woods AJ, Stagg CJ, Abend R, Antonenko D, Auer T, Bächinger M, Baeken C, Barron HC, Chase HW, Crinion J, Datta A, Davis MH, Ebrahimi M, Esmaeilpour Z, Falcone B, Fiori V, Ghodratitoostani I, Gilam G, Grabner RH, Greenspan JD, Groen G, Hartwigsen G, Hauser TU, Herrmann CS, Juan CH, Krekelberg B, Lefebvre S, Liew SL, Madsen KH, Mahdavifar-Khayati R, Malmir N, Marangolo P, Martin AK, Meeker TJ, Ardabili HM, Moisa M, Momi D, Mulyana B, Opitz A, Orlov N, Ragert P, Ruff CC, Ruffini G, Ruttorf M, Sangchooli A, Schellhorn K, Schlaug G, Sehm B, Soleimani G, Tavakoli H, Thompson B, Timmann D, Tsuchiyagaito A, Ulrich M, Vosskuhl J, Weinrich CA, Zare-Bidoky M, Zhang X, Zoefel B, Nitsche MA, Bikson M. A (2022).
Checklist for Assessing the Methodological Quality of Concurrent tES-fMRI Studies (ContES Checklist): A Consensus Study and Statement,
Nature Protocols 17(3):596-617
[PubMed]

Kasten FH, Herrmann CS (2022).
Discrete sampling in perception via neuronal oscillations - Evidence from rhythmic, non-invasive brain stimulation.
European Journal of Neuroscience 55(11-12): 3402-3417
[PubMed]

Dreyer A, Heikkinen B, Herrmann CS (2022).
The influence of the modulation index on frequency-modulated steady-state visual evoked potentials.
Frontiers in Human Neuroscience 16:859519, 2022.
[PubMed]

Vogeti S, Boetzel C, Herrmann CS (2022).
Entrainment and spike-timing dependent plasticity – A review of proposed mechanisms of transcranial alternating current stimulation.
Frontiers in Systems Neuroscience 16:827353.
[PubMed]

Fiene M, Radecke J-O, Misselhorn J, Sengelmann M, Herrmann CS, Schneider TR, Schwab BC, Engel AK (2022).
tACS phase-specifically biases brightness perception of flickering light.
Brain Stimulation 15(1):244-253, 2022.
[PubMed]

2021

Thirugnanasambandam N, Kasten FH, Udupa K (2021).
Editorial: Novel Multimodal Approaches in Non-invasive Brain Stimulation
Frontiers in Human Neuroscience
[Link]

von Conta J, Kasten FH, Curcik-Blake B, Aleman A, Thielscher A, Herrmann CS (2021).
Interindividual Variability of Electric Fields during Transcranial Temporal Interference Stimulation (tTIS),
Scientific Reports 11(1):20357.
[PubMed]

Duecker K, Gutteling TP, Herrmann CS, Jensen O (2021).
No evidence for entrainment: endogenous gamma oscillations and responses to rhythmic visual stimulation co-exist in visual cortex,
Journal of Neuroscience 41(31):6684-6698.
[PubMed]

Stecher HI, Notbohm A, Kasten FH, Herrmann CS (2021).
A comparison of closed loop vs. fixed frequency tACS on modulating brain oscillations and visual detection
Frontiers in Neuroscience 15:661432.
[PubMed]

Faramarzi M, Kasten FH, Altas G, Aleman A, Curcik-Blake B, Herrmann CS (2021).
Similar EEG activity patterns during experimentally-induced auditory illusions and veridical perceptions.
Frontiers in Human Neuroscience 15:602437.
[PubMed]

Boetzel C, Herrmann CS (2021).
Potential targets for the treatment of ADHD using transcranial alternating current simulation.
Progress in Brain Research 264:151-170.
[PubMed]

Karakaş S, Herrmann CS, Chiarenza GA (2021).
A special issue on electroencephalogram (EEG) oscillations: In memoriam of Erol Başar.
Int J Psychophysiol. 159:71-73.
[PubMed]

Elyamany O, Leicht G, Herrmann CS, Mulert C (2021).
Transcranial alternating current stimulation (tACS): from basic mechanisms towards first applications in psychiatry.
European Archives of Psychiatry and Clinical Neuroscience, 271(1):135-156.
[PubMed]

Erkens J, Schulte M, Vormann M, Wilsch A, Herrmann CS (2021).
Hearing Impaired Participants Improve More Under Envelope-Transcranial Alternating Current Stimulation When Signal to Noise Ratio Is High.
Neuroscience Insights, 16, 1-12, 2021.
[PubMed]

2020

Vosskuhl J, Mutanen T, Neuling T, Ilmoniemi RJ, Herrmann CS (2020).
Signal-space projection suppresses the tACS artifact in EEG recordings.
Frontiers in Human Neuroscience 14:536070.
[PubMed]

Leijko N, Larabi DI, Herrmann CS, Aleman A, Curcic-Blake B (2020).
Alpha power and functional connectivity in mild cognitive impairment: a systematic review and metaanalysis.
Journal of Alzheimers Dis. 2020;78(3):1047-1088.
[PubMed]

Kasten FH, Wendeln T, Stecher HI, Herrmann CS (2020).
Hemisphere-specific, differential effects of lateralized, occipital-parietal α- versus γ-tACS on endogenous but not exogenous visual-spatial attention.
Sci Rep. 10(1):12270
[PubMed]

Fiene M, Schwab BC, Misselhorn J, Herrmann CS, Schneider TR, Engel AK (2020).
Phase-specific manipulation of rhythmic brain activity by transcranial alternating current stimulation.
Brain Stimul. 13(5):1254-1262.
[PubMed]

Erkens J, Schulte M, Vormann M, Herrmann CS (2020).
Lacking effects of envelope-tACS indicate the need to revise envelope-tACS methods.
Neuroscience Insights 15:2633105520936623.
[PubMed]

Gießing C, Alavash M, Herrmann CS, Hilgetag CC, Thiel CM (2020).
Individual differences in local functional brain connectivity affect TMS effects on behavior.
Scientific Reports 10(1):10422.
[PubMed]

Möller TJ, Braun N, Thöne A-K, Herrmann CS, Philipsen A (2020).
The Senses of Agency and Ownership in Patients with Borderline Personality Disorder.
Frontiers in Psychiatry 11:474.
[PubMed]

Dowsett J, Herrmann CS, Dieterich M, Taylor PCJ (2020).
Shift in lateralization during illusory self-motion: EEG responses to visual flicker at 10 Hz and frequency-specific modulation by tACS
European Journal of Neuroscience 51(7):1657-1657.
[PubMed]

Strüber D, Herrmann CS (2020).
Modulation of gamma oscillations as a possible therapeutic tool for neuropsychiatric diseases: A review and perspective.
International Journal of Psychophysiology 152:15-25.
[PubMed]

Dallmer-Zerbe I, Popp F, Lam AP, Philipsen A, Herrmann CS (2020).
Transcranial Alternating Current Stimulation (tACS) as a Tool to Modulate P300 Amplitude in Attention Deficit Hyperactivity Disorder (ADHD): Preliminary Findings.
Brain Topography 33(2):191-207
[PubMed]

Sabel BA, Thut G, Haueisen J, Henrich-Noack P, Herrmann CS, Hunold A, Kammer T, Matteo B, Sergeeva EG, Waleszczyk W, Antal A (2020).
Vision modulation, plasticity and restoration using non-invasive brain stimulation – a review.
Clinical Neurophysiology. 131(4):887-911.
[PubMed]

Ouyang G, Hildebrandt A, Schmitz F, Herrmann CS (2020).
Decomposing alpha and 1/f brain activities reveals their differential associations with cognitive processing.
Neuroimage. 205:116304.
[PubMed]

Baltus A, Herrmann CS (2020).
Transcranial alternating current stimulation modulates auditory temporal resolution in elderly people.
European Journal of Neuroscience   51(5):1328-1338.
[PubMed]

2019

Kasten, F. H., Duecker, K., Maack, M. C., Meiser, A., & Herrmann, C. S. (2019).
Integrating electric field modeling and neuroimaging to explain inter-individual variability of tACS effects.
Nature Communications, 10(1), 5427.
[PubMed]

Kasten, FH & Herrmann, CS (2019),
Recovering brain dynamics during concurrent tACS-M/EEG - An overview of analysis approaches and their methodological and interpretational pitfalls.
Brain Topography. 32(6):1013-1019.
[PubMed]

Popp F, Dallmer-Zerbe I, Philipsen A, Herrmann CS (2019).
Challenges of P300 Modulation Using Transcranial Alternating Current Stimulation (tACS).
Front Psychol. 10:476.
[PubMed]

Veniero D, Strüber D, Thut G, Herrmann CS (2019).
Non-invasive brain stimulation techniques can modulate cognitive processing.
Organizational Research Methods, 116-147.
[Sage]

2018

Löffler BS, Stecher HI, Fudickar S, de Sordi D, Sobotka F, Hein A, Herrmann CS (2018)
Counteracting the slowdown of reaction times in a vigilance experiment with 40 Hz
transcranial alternating current stimulation

IEEE Transactions on Neural Systems & Rehabilitation Engineering. 2053-2061.
[PubMed]

Wilsch A, Henry M, Herrmann B, Herrmann CS, Obleser J (2018)
Temporal expectation modulates the cortical dynamics of short-term memory
Journal of Neuroscience. 38(34):7428-7439.
[PubMed]

Kasten F, Maess B, Herrmann CS (2018)
Facilitated event-related power-modulations during transcranial alternating current stimulation (tACS) revealed by concurrent tACS-MEG.
eNeuro. 5(3).
[PubMed]

Stecher HI, Christoph S Herrmann CS (2018)
Corrigendum: Absence of alpha-tACS aftereffects in darkness reveals importance of taking derivations of stimulation frequency and individual alpha variability into account.
Frontiers in Human Neuroscience. 9:1769.
[PubMed]

Stecher HI, Christoph S Herrmann CS (2018)
Absence of alpha-tACS aftereffects in darkness reveals importance of taking derivations of stimulation frequency and individual alpha variability into account.
Frontiers in Human Neuroscience. 9:984.
[PubMed]

Hutt A, Griffiths JD, Herrmann CS, Lefebvre J (2018)
Effect of stimulation waveform on the non-linear entrainment of cortical alpha oscillations
Frontiers in Neuroscience. 12:376.
[PubMed]

Kasten FH, Negahbani E, Fröhlich F, Herrmann CS (2018)
Non-linear transfer characteristics of stimulation and recording hardware account for spurious low-frequency artifacts during amplitude modulated transcranial alternating current stimulation (AM-tACS)
Neuroimage. 179:134-143.
[PubMed]

Vosskuhl J, Strüber D, Herrmann CS (2018).
Non-Invasive Brain Stimulation: A paradigm shift in understanding brain oscillations
Frontiers in human Neuroscience. 12:211.
[Frontiers]

Wöstmann M, Vosskuhl J, Obleser J, Herrmann CS  (2018).
Opposite effects of lateralised transcranial alpha versus gamma stimulation on auditory spatial
attention.

Brain Stimulation. 11(4):752-758.
[PubMed]

Negahbani E, Kasten FH, Herrmann CS, Frohlich F (2018).
Targeting alpha-band oscillations in a cortical model with amplitude-modulated high-frequency transcranial electric stimulation.
Neuroimage. 173:3-12.
[PubMed]

Wilsch A, Neuling T, Obleser J, Herrmann CS (2018).
Transcranial alternating current stimulation with speech envelopes
modulates speech comprehension.

NeuroImage. 172:766-774.
[PubMed]

Baltus A, Wagner S, Wolters CH, Herrmann CS (2018).
Optimized auditory transcranial alternating current stimulation improves individual auditory temporal resolution.
Brain Stimulation. 11(1):118-124.
[PubMed]

2017

Herrmann CS, Strüber D (2017).
What Can Transcranial Alternating Current Stimulation Tell Us About Brain Oscillations?
Current Behavioral Neuroscience Reports 4:128-137.
[Springer]

Antal A, Alekseichuk I, Bikson M, Brockmöller J, Brunoni AR, Chen R, Cohen LG, Dowthwaite G, Ellrich J, Flöel A, Fregni F, George MS, Hamilton R, Haueisen J, Herrmann CS, Hummel FC, Lefaucheur JP, Liebetanz D, Loo CK, McCaig CD, Miniussi C, Miranda PC, Moliadze V, Nitsche MA, Nowak R, Padberg F, Pascual-Leone A, Poppendieck W, Priori A, Rossi S, Rossini PM, Rothwell J, Rueger MA, Ruffini G, Schellhorn K, Siebner HR, Ugawa Y, Wexler A, Ziemann U, Hallett M, Paulus W (2017).
Low intensity transcranial electric stimulation: Safety, ethical, legal regulatory and application guidelines.
Clin Neurophysiol. 128(9):1774-1809.
[PubMed]

Dreyer AM, Herrmann CS, Rieger JW (2017).
Tradeoff between User Experience and BCI Classification Accuracy with Frequency Modulated Steady-State Visual Evoked Potentials.
Front Hum Neurosci. 26;11:391.
[PubMed]

Stecher HI, Pollok TM, Strüber D, Sobotka F, Herrmann CS (2017).
Ten Minutes of α-tACS and Ambient Illumination Independently Modulate EEG α-Power.
Front Hum Neurosci. 18;11:257.
[PubMed]

Thut G, Bergmann TO, Fröhlich F, Soekadar SR, Brittain JS, Valero-Cabré A, Sack A, Miniussi C, Antal A, Siebner HR, Ziemann U, Herrmann CS (2017).
Guiding transcranial brain stimulation by EEG/MEG to interact with ongoing brain activity and associated functions: A position paper.
Clinical Neurophysiology 128(5):843-857.
[PubMed]

Huster RJ, Schneider S, Lavallee CF, Enriquez-Geppert S, Herrmann CS (2017).
Filling the void-enriching the feature space of successful stopping. 
Hum Brain Mapp. 38(3):1333-1346.
[PubMed]

Enriquez-Geppert S, Huster RJ, Herrmann CS 2017).
EEG-Neurofeedback as a Tool to Modulate Cognition and Behavior: A Review Tutorial.
Front Hum Neurosci. 11:51.
[PubMed]

Neuling T, Ruhnau P, Weisz N, Herrmann CS, Demarchi G (2017).
Faith and oscillations recovered: On analyzing EEG/MEG signals during tACS.
Neuroimage. 147:960-963.
[PubMed]

Kasten FH, Herrmann CS (2017).
Transcranial alternating current stimulation (tACS) enhances mental rotation performance during and after stimulation.
Frontiers in Human Neuroscience. 11:2.
[PubMed]

2016

Ranzi P, Freund JA, Thiel CM, Herrmann CS (2016).
Encephalography Connectivity on Sources in Male Nonsmokers after Nicotine Administration during the Resting State.
Neuropsychobiology. 74(1):48-59.
[PubMed]

Notbohm A, Herrmann CS (2016).
Flicker Regularity Is Crucial for Entrainment of Alpha Oscillations. 
Front Hum Neurosci. 10:503.
[PubMed]

Wagner S, Lucka F, Vorwerk J, Herrmann CS, Nolte G, Burger M, Wolters CH (2016).
Using reciprocity for relating the simulation of transcranial current stimulation to the EEG forward problem.
Neuroimage. 140:163-73.
[PubMed]

Helfrich RF, Herrmann CS, Engel AK, Schneider TR (2016).
Different coupling modes mediate cortical cross-frequency interactions.
Neuroimage. 15;140:76-82.
[PubMed]

Vosskuhl J, Huster RJ, Herrmann CS (2016).
BOLD signal effects of transcranial alternating current stimulation (tACS) in the alpha range: A concurrent tACS-fMRI study.
Neuroimage. 140:118-25.
[PubMed]

Kasten FH, Dowsett J, Herrmann CS (2016).
Sustained Aftereffect of α-tACS Lasts Up to 70 min after Stimulation.
Front Hum Neurosci. 25;10:245.
[PubMed]

Ruhnau P, Neuling T, Fuscá M, Herrmann CS, Demarchi G, Weisz N (2016).
Eyes wide shut: Transcranial alternating current stimulation drives alpha rhythm in a state dependent manner.
Sci Rep. 2;6:27138.
[PubMed]

Antal A, Herrmann CS (2016).
Transcranial Alternating Current and Random Noise Stimulation: Possible Mechanisms.
Neural Plast. 2016:3616807.
PubMed]

Ranzi P, Thiel CM, Herrmann CS (2016).
EEG Source Reconstruction in Male Nonsmokers after Nicotine Administration during the Resting State.
Neuropsychobiology. 73(4):191-200.
[PubMed]

Herrmann CS, Murray MM, Ionta S, Hutt A, Lefebvre J (2016).
Shaping Intrinsic Neural Oscillations with Periodic Stimulation.
J Neurosci. 11;36(19):5328-37.
[Pubmed]

Dowsett J, Herrmann CS (2016).
Transcranial Alternating Current Stimulation with Sawtooth Waves: Simultaneous Stimulation and EEG Recording.
Front Hum Neurosci. 10:135.
[PubMed]

Notbohm A, Kurths J, Herrmann CS (2016).
Modification of Brain Oscillations via Rhythmic Light Stimulation Provides Evidence for Entrainment but Not for Superposition of Event-Related Responses.
Front Hum Neurosci. 10:10.
[PubMed]

Woods AJ, Antal A, Bikson M, Boggio PS, Brunoni AR, Celnik P, Cohen LG, Fregni F, Herrmann CS, Kappenman ES, Knotkova H, Liebetanz D, Miniussi C, Miranda PC, Paulus W, Priori A, Reato D, Stagg C, Wenderoth N, Nitsche MA (2016).
A technical guide to tDCS, and related non-invasive brain stimulation tools.
Clin Neurophysiol. 127(2):1031-48.
[PubMed]

Baltus A, Herrmann CS (2016).
The importance of individual frequencies of endogenous brain oscillations for auditory cognition - A short review.
Brain Res. 1;1640(Pt B):243-50.
[PubMed]

Herrmann CS, Strüber D, Helfrich RF, Engel AK (2016).
EEG oscillations: From correlation to causality
International Journal of Psychophysiology. 103:12-21.
[PubMed]

2015

Vosskuhl J, Strüber D, Herrmann CS (2015).
[Transcranial alternating current stimulation : Entrainment and function control of neuronal networks].
[Article in German]
Nervenarzt. 86(12):1516-22.
[PubMed]

Strüber D, Rach S, Neuling T, Herrmann CS (2015).
On the possible role of stimulation duration for after-effects of transcranial alternating current stimulation.
Frontiers in Cellular Neuroscience.
[Frontiersin]

Baltus A, Herrmann CS (2015).
Auditory temporal resolution is linked to resonance frequency of the auditory cortex.
Int J Psychophysiol. 98(1):1-7.
[PubMed]

Neuling T, Ruhnau P, Fuscà M, Demarchi G, Herrmann CS, Weisz N (2015).
Friends, not foes: magnetoencephalography as a tool to uncover brain dynamics during transcranial alternating current stimulation.
NeuroImage. 118:406-13.
[PubMed]

Chen LC, Sandmann P,  Thorne JD,  Herrmann CS, Debener S (2015).
Association of Concurrent fNIRS and EEG Signatures in Response to Auditory and Visual Stimuli.
Brain Topography. 28(5):710-25.
[PubMed]

Riecke L, Formisano E, Herrmann CS, Sack AT (2015).
4-Hz Transcranial Alternating Current Stimulation Phase Modulates Hearing.
Brain Stimul. 8(4):777-83.
[Pubmed]

Vosskuhl J, Huster RJ, Herrmann CS (2015).
Increase in short-term memory capacity induced by down-regulating individual theta frequency via transcranial alternating current stimulation.
Front Hum Neurosci. 8;9:257.
[Pubmed]

Escoffier N, Herrmann CS, Schirmer A (2015).
Auditory rhythms entrain visual processes in the human brain: Evidence from evoked oscillations and event-related potentials
NeuroImage. 1;111:267-76.
[PubMed]

Bauer AK, Kreutz G, Herrmann CS (2015).
Individual musical tempo preference correlates with EEG beta rhythm.
Psychophysiology. 52(4):600-4.
[PubMed]

Pannese A, Herrmann CS, Sussman E (2015).
Analyzing the auditory scene: Neurophysiologic evidence of a dissociation
between detection of regularity and detection of change

Brain Topography. 28(3):411-22.
[PubMed]

Dreyer A M, Herrmann CS (2015).
Frequency-modulated steady-state visual evoked potentials: A new stimulation method for brain-computer interfaces.
Journal of Neuroscience Methods 241:1-9.
Access the recommendation on F1000Prime
[PubMed]

2014

Lavallee CF, Meemken MT, Herrmann CS, Huster RJ (2014).
When holding your horses meets the deer in the headlights: time-frequency characteristics of global and selective stopping under conditions of proactive and reactive control.
Front Hum Neurosci. 10;8:994.
[PubMed]

Helfrich RF, Knepper H, Nolte G, Strüber D, Rach S, Herrmann CS, Schneider TR, Engel AK (2014).
Selective Modulation of Interhemispheric Functional Connectivity by HD-tACS Shapes Perception
PLOS Biology 12(12).
[PubMed]

Enriquez-Geppert S, Huster RJ, Figge C, Herrmann CS (2014).
Self-regulation of frontal-midline theta facilitates memory updating and mental set shifting.
Front Behav Neurosci. 8:420.
[PubMed]

Helfrich RF, Schneider TR, Rach S, Trautmann-Lengsfeld SA, Engel AK, Herrmann CS (2014).
Entrainment of Brain Oscillations by Transcranial Alternating Current Stimulation

Current Biology 24(3):333–339.
[Link]

Prada L, Barceló F, Herrmann CS, Escera C. (2014).
EEG delta oscillations index inhibitory control of contextual novelty to both irrelevant distracters and relevant task-switch cues.
Psychophysiology 51(7):658-72.
[PubMed]

Herrmann CS, Rach S, Vosskuhl J, Strüber D (2014).
Time-frequency analysis of event-related potentials: A brief tutorial
Brain Topography 27(4):438-50.
[PubMed]

Lavallee CF, Herrmann CS, Weerda R, Huster RJ (2014).
Stimulus-Response Mappings Shape Inhibition Processes: A Combined EEG-fMRI Study of Contextual Stopping.
PLoSOne 9(4).
[PubMed]

Huster RJ, Plis SM, Lavallee CF, Calhoun VD, Herrmann CS (2014).
Functional and effective connectivity of stopping.
Neuroimage. 94:120-8.
[PubMed]

Herrmann CS, Murray MM (2014).
Seeing things that are not there: Illusions reveal how our brain constructs what we see.
Frontiers in Neuroscience for Young Minds
[Link]

Wagner S, Rampersad SM, Aydin Ü, Vorwerk J, Oostendorp TF, Neuling T, Herrmann CS, Stegeman DF, Wolters CH (2014).
Investigation of tDCS volume conduction effects in a highly realistic head model
Journal of Neural Engineering 11(1):016002.
[PubMed]

Huster, RJ, Mokom, ZN, Enriquez-Geppert, S, Hermman, CS (2014).
Brain computer interfaces for EEG neurofeedback: Peculiarities and solutions.
Int J Psychophysiol. 91(1):36-45.
[PubMed]

Trautmann-Lengsfeld SA, Herrmann CS (2014).
Virtually simulated social pressure influences early visual processing more in low compared to high autonomous participants.

Psychophysiology 51(2):124-35.
[PubMed]

Enriquez-Geppert S, Huster RJ, Scharfenort R, Mokom ZN, Herrmann CS (2014). 
Modulation of frontal-midline theta by neurofeedback. 
Biological Psychology 95:59-69.
[PubMed]

Rach S, Huster RJ (2014).
In search of causal mechanisms underlying bistable perception.
Journal of Neuroscience 34(3), 689-690.
[PubMed]

Strüber D, Rach S, Trautmann-Lengsfeld SA, Engel AK, Herrmann CS (2014).
Antiphasic 40 Hz oscillatory current stimulation affects bistable motion perception.
Brain Topography 27(1):158-71.
[PubMed]

Huster RJ, Enriquez-Geppert S, Pantev C, Bruchmann M (2014).
Variations in midcingulate morphology are related to ERP indices of cognitive control.
Brain structure and function 219(1):49-60.
[PubMed]

2013

Enriquez-Geppert S, Huster RJ, Scharfenort R, Mokom ZN., Vosskuhl J, Figge C, Zimmermann J, Herrmann CS (2013).
The morphology of midcingulate cortex predicts frontal-midline theta neurofeedback success.
Frontiers in Human Neuroscience 7:453.
[PubMed]

Murray MM, Herrmann CS (2013).
Illusory contours: a window onto the neurophysiology of constructing perception.
Trends in Cognitive Sciences 17(9):471-481.
[PubMed]

Enriquez-Geppert S, Eichele T, Specht K, Kugel H, Pantev C, Huster RJ (2013).
Functional parcellation of the inferior frontal and midcingulate cortices in a flanker-stop-change paradigm.
Human Brain Mapping 34(7):1501-14.
[PubMed]

Herrmann CS, Rach S, Neuling T, Strüber D (2013).
Transcranial alternating current stimulation: a review of the underlying mechanisms and modulation of cognitive processes.
Frontiers in Neuroscience 7:279.
[PubMed]

Neuling T, Rach S and Herrmann CS (2013).
Orchestrating neuronal networks: sustained after-effects of transcranial alternating current stimulation depend upon brain states.
Front. Hum. Neurosci. 7:161.
[Abstract]

Trautmann-Lengsfeld SA, Herrmann CS. (2013).
EEG reveals an early influence of social conformity on visual processing in group pressure situations
Social Neuroscience 8(1), 75-89.
[PubMed]

Huster RJ, Enriquez-Geppert S, Lavallee CF, Falkenstein M, Herrmann CS (2013).
Electroencephalography of response inhibition tasks: Functional networks and cognitive contributions.
International Journal of Psychophysiology 87(3):217-33.
[PubMed]

Enriquez-Geppert S, Huster RJ, Herrmann CS (2013).
Boosting brain functions: Improving executive functions with behavioral trainings, neurostimulation, and neurofeedback.
International Journal of Psychophysiology 88(1):1-16.
[PubMed]

Ott CGM, Stier C, Herrmann CS, Jäncke L (2013).
Musical expertise affects attention as reflected by auditory evoked gamma-band activity in human EEG
Neuroreport 24(9):445-50.
[PubMed]

Quirin M, Meyer F, Heise N, Kuhl J, Küstermann E, Strüber D, Cacioppo JT (2013). 
Neural correlates of social motivation: An fMRI study on power versus affiliation. 
International Journal of Psychophysiology. 88(3):289-95
[PubMed]

2012

Neuling T, Rach S, Wagner S, Wolters CH, Herrmann CS. (2012).
Good vibrations: oscillatory phase shapes perception.
NeuroImage 63(2), 771-778.
Access the recommendation on F1000 Prime
[PubMed] Neuling T, Wagner S, Wolters CH, Zaehle T, Herrmann CS. (2012).
Finite-element model predicts current density distribution for clinical applications of tDCS and tACS.
Frontiers in Psychiatry 3:83.
[Abstract] Steinhauser M, Eichele H, Juvodden HT, Huster RJ, Ullsperger M, Eichele T. (2012).
Error-preceding brain activity reflects (mal-)adaptive adjustments of cognitive control: a modeling study.
Front Hum Neurosci. 2012;6:97.
[PubMed]
Ford J, Dierks T, Fischer D, Herrmann CS, Hubl D, Kindler J, Koenig T, Mathalon D, Spencer KM, Strik W, van Lutterveld R. (2012).
Neurophysiological Studies of Auditory Hallucinations.
Schizophrenia Bulletin 38(4), 715-723.
[PubMed] Huster R, Debener S, Eichele T, Herrmann CS. (2012).
Methods for simultaneous EEG-fMRI: an introductory review.

Journal of Neuroscience 32(18), 6053-6060.
[PubMed]

2011

Sabel BA, Fedorov AB, Naue N, Borrmann A, Herrmann CS, Gall C. (2011).
Non-invasive alternating current stimulation improves vision in optic neuropathy.
Restorative Neurology and Neuroscience, 29(6), 493-505.
[PubMed]

Zaehle T, Beretta M, Jäncke L, Herrmann CS, Sandmann P. (2011).
Excitability changes induced in the human auditory cortex by transcranial direct current stimulation: direct electrophysiological evidence.
Experimental Brain Research, 215(2), 135-140.
[PubMed]

Rach S, Diederich A, Colonius H. (2011).

On quantifying multisensory interaction effects in reaction time and detection rate.
Psychological Research, 75(2), 77-94.
[PubMed]

Huster RJ, Rasch B. (2011).
Die Biologie braucht mehr Psychologie.
Psychologische Rundschau, 62(2), 119-121.
[PDF] [hogrefe]

Wiswede D, Taubner S, Münte TF, Roth G, Strüber D, Wahl K, Krämer UM. (2011).
Neurophysiological Correlates of Laboratory-Induced Aggression in Young Men with and without a History of Violence.
PLoS One, 2011,6(7): e22599.
[PubMed]

Baltz T, Herzog A, Voigt T. (2011).
Slow oscillating population activity in developing cortical networks:
models and experimental results.

Journal of Neurophysiology 106:1500-1514.
[PDF][PubMed]

Huster RJ, Eichele T, Enriquez-Geppert S, Wollbrink A, Kugel H, Konrad C, Pantev C. (2011).
Multimodal imaging of functional networks and event-related potentials in performance
monitoring.

NeuroImage, 56(3), 1588-1597.
[PubMed]

Naue N, Rach S, Strüber D, Huster RJ, Zaehle T, Körner U, Herrmann CS. (2011).
Auditory event related response in visual cortex modulates subsequent visual responses in humans.
Journal of Neuroscience, 31, 7729-7736.
[PubMed]

Herrmann CS, Kaiser J. (2011).
EEG gamma-band responses reflect human behavior: an overview.
International Journal of Psychophysiology, 79, 1-2.
[PubMed]

Naue N, Strüber D, Fründ I, Schadow J, Lenz D, Rach S, Körner U, Herrmann CS. (2011).
Gamma in motion: Pattern reversal elicits stronger gamma-band responses than motion.
Neuroimage, 55, 808-817.
[PDF][PubMed]

Zoefel B, Huster RJ, Herrmann CS. (2011).
Neurofeedback training of the upper alpha frequency band in EEG improves cognitive performance.
Neuroimage, 54(2), 1427-1431.
[PubMed]

Huster RJ, Westerhausen R, Herrmann CS. (2011).
Sex differences in cognitive control are associated with midcingulate and callosal morphology.
Brain Structure and Function,215(3-4):225-35.
[PDF] [PubMed]

Lenz D, Fischer S, Schadow J, Bogerts B, Herrmann CS. (2011).
Altered evoked gamma-band responses as a neurophysiological marker of schizophrenia?
International Journal of Psychophysiology, 79, 25-31.
[PubMed]

Zähle T, Herrmann CS. (2011).
Neural Synchrony and White Matter Variations in the Human Brain: Relation between evoked Gamma Frquency and Corpus Callosum Morphology.
International Journal of Psychophysiology 79, 49-54.
[PubMed]

Zähle T, Sandmann P, Thorne J, Jäncke L, Herrmann CS. (2011).
Transcranial direct current stimulation of the prefrontal cortex modulates working memory performance: Combined behavioural and electrophysiological evidence.
BMC Neuroscience 12. 2.
[PubMed]

2010

Zähle T, Rach S, Herrmann CS. (2010).
Transcranial alternating current stimulation enhances individual alpha activity in human EEG.
PLoS One, 5(11).
[PDF] [PubMed]

Zähle T, Lenz D, Ohl FW, Herrmann CS. (2010).
Resonance phenomena in the human auditory cortex: Individual resonance frequencies of the cerebral cortex determine electrophysiological responses .
Experimental Brain Research, 203, 629-635.
[PDF] [PubMed]

Lenz D, Krauel K, Flechtner HH, Schadow J, Hinrichs H, Herrmann CS. (2010).
Altered evoked gamma-band responses reveal impaired early visual processing in ADHD children.
Neuropsychologia, 48, 1985-1993.
[PubMed]

Busch NA, Fründ I, Herrmann CS. (2010).
Electrophysiological evidence for different types of change detection and change blindness.
Journal of Cognitive Neuroscience, 22, 1852-1869.
[PDF] [PubMed]

Enriquez-Geppert S, Konrad C, Pantev C, Huster RJ. (2010).
Conflict and inhibition differentially affect the N200/P300 complex in combined go/nogo and stop-signal task.
NeuroImage, 51(2), 877-887.
[PubMed]

Herrmann CS, Fründ I, Lenz D. (2010).
Human gamma-band activity: A review on cognitive and behavioral correlates and network models.
Neuroscience and Biobehavioral Reviews, 34, 981-992.
[PubMed]

Rach S, Diederich A, Steenken R, Colonius H. (2010).
The race model inequality for censored reaction time distributions.
Attention, Perception & Psychophysics 72(3):839-47.
[PDF][PubMed]

Busch NA, Dürschmid S, Herrmann CS. (2010).
ERP effects of change localization, change identification and change blindness.
Neuroreport, 21, 371-375.
[PubMed]

Strüber D, Roth G. (2010).
Sexualität und Gehirn.
Persönlichkeitsstörungen: Theorie und Therapie, 14(3), 161-168.

2009

Fründ I, Ohl FW, Herrmann CS. (2009).

Spike timing dependent plasticity leads to early phase-locked and late non phase-locked gamma band responses in a neural network.
Biological Cybernetics, 101, 227-240.
[PDF] [PubMed]

Zaehle T, Jancke L, Herrmann CS, Meyer M. (2009).
Pre-attentive spectro-temporal feature processing in the human auditory system.
Brain Topography, 22, 97-108.
[PDF] [PubMed]

Schadow J, Lenz D, Dettler N, Fründ I, Herrmann CS. (2009).
Early gamma-band responses reflect anticipatory top-down modulation in the auditory cortex.
Neuroimage, 47, 651-658.
[PubMed]

Krauel K, Duzel E, Hinrichs H, Lenz D, Herrmann CS, Santel S, Rellum T, Baving L. (2009).
Electrophysiological correlates of semantic processing during encoding of neutral and emotional pictures in patients with ADHD.
Neuropsychologia, 47(8-9), 1873-1882.
[PubMed]

Zaehle T, Fründ I, Schadow J, Thärig S, Schoenfeld MA, Herrmann CS. (2009).
Inter- and intra-individual covariations of hemodynamic and oscillatory gamma responses in the human cortex.
Frontiers in Human Neuroscience, 3:8.
[PDF][PubMed]

Hanke M, Halchenko YO, Sederberg PB, Olivetti E, Fründ I, Rieger JW, Herrmann CS, Haxby JV, Hanson SJ, Pollmann S. (2009).
PyMVPA: A Unifying Approach to the Analysis of Neuroscientific Data.
Frontiers in Neuroinformatics, 3(3).
[PDF] [PubMed]

Schadow J, Naue N, Paramei GV, Lenz D, Fründ I, Sabel BA, Herrmann CS. (2009).
Impairments of Gestalt perception in the intact hemifield of hemianopic patients are reflected in gamma-band EEG activity.
Neuropsychologia, 47(2): 556-568.
[PubMed]

2008

Lenz D, Krauel K, Schadow J, Baving L, Duzel E, Herrmann CS. (2008).
Enhanced gamma-band activity in ADHD patients lacks correlation with memory performance found in healthy children.
Brain Research, 1235: 117-132.
[PubMed]

Debener S, Herrmann CS. (2008).
Integration of EEG and fMRI. Editorial.
International Journal of Psychophysiology. 67(3):159-60.

Fründ I, Schadow J, Busch NA, Naue N, Körner U, Herrmann CS. (2008).
Anticipation of natural stimuli modulates EEG dynamics: physiology and simulation.
Cognitive Neurodynamics, 2: 89-100.
[PDF] [PubMed]

Zokoll MA, Naue N, Herrmann CS, Langemann U. (2008).
Auditory memory: A comparison between humans and starlings.
Brain Research, 1220: 33-46.
[PubMed]

Lenz D, Jeschke M, Schadow J, Naue N, Ohl FW, Herrmann CS. (2008).
Human EEG very high frequency oscillations reflect the number of matches with a template in auditory short-term memory.
Brain Research, 1220: 81-92.
[PubMed]

Jeschke M, Lenz D, Budinger E, Herrmann CS, Ohl FW. (2008).
Gamma oscillations in gerbil auditory cortex during a target-discrimination task reflect matches with short-term memory.
Brain Research, 1220: 70-80.
[PubMed]

Roeber U, Widmann A, Trujillo-Barreto N, Herrmann CS, O'Shea R, Schröger E. (2008).
Early correlates of visual awareness in the human brain: time and place from event-related brain potentials.
Journal of Vision, 8(3): 21, 1-12.
[PubMed]

Fründ I, Busch NA, Schadow J, Gruber T, Körner U, Herrmann CS. (2008).
Time pressure modulates electrophysiological correlates of early visual processing.
PLoS One, 3(2):e1675.
[PDF] [PubMed]

Herrmann CS, Debener S. (2008).
Simultaneous recording of EEG and BOLD responses: A historical perspective.
International Journal of Psychophysiology, 67(3):161-168.
[PubMed]

Thaerig S, Behne N, Schadow J, Lenz D, Scheich H, Brechmann A, Herrmann CS. (2008).
Sound level dependence of auditory evoked potentials: Simultaneous EEG recording and low-noise fMRI.
International Journal of Psychophysiology, 67(3):235-241.
[PubMed]

Herrmann CS, Pauen M, Min BK, Busch NA, Rieger JW. (2008).
Analysis of a choice-reaction task yields a new interpretation of Libet's experiments.
International Journal of Psychophysiology, 67 (2), 151-157.
[PubMed]

Busch NA, Groh-Bordin C, Zimmer HD, Herrmann CS. (2008).
Modes of memory: Early electrophysiological markers of repetition suppression and recognition enhancement predict behavioural performance.
Psychophysiology, 45(1):25-35.
[PDF][PubMed]

2007

Min BK, Busch NA, Debener S, Kranczioch C, Hanslmayr S, Engel AK, Herrmann CS. (2007).
The best of both worlds: phase-reset of human EEG alpha activity and additive power contribute to ERP generation.
International Journal of Psychophysiology 65(1): 58-68.
[PubMed]

Hanslmayr S, Aslan A, Staudigl T, Klimesch W, Herrmann CS, Bäuml KH. (2007).
Prestimulus oscillations predict visual perception performance between and within subjects.
Neuroimage, 37(4): 1465-14732007.
[PubMed]

Min BK, Herrmann CS. (2007).
Prestimulus EEG alpha activity reflects prestimulus top-down processing.
Neuroscience Letters, 422(2): 131-135.
[PubMed]

Ohla K, Busch NA, Herrmann CS. (2007).
Early electrophysiological markers of visual awareness in the human brain.
Neuroimage, 37(4): 1329-1337.
[PubMed]

Schadow J, Lenz D, Thaerig S, Busch NA, Fründ I, Rieger JW, Herrmann CS. (2007).
Stimulus intensity affects early sensory processing: Visual contrast modulates evoked gamma-band activity in human EEG.
International Journal of Psychophysiology, 66(1): 28-36.
[PubMed]

Schadow J, Lenz D, Thaerig S, Busch NA, Fründ I, Herrmann CS. (2007).
Stimulus intensity affects early sensory processing: Sound intensity modulates auditory evoked gamma-band activity in human EEG.
International Journal of Psychophysiology, 65(2): 152-161.
[PubMed]

Herrmann CS, Herrmann WS. (2007).
'Cognitive genes' reveal higher codon complexity than 'somatic genes'.
Chaos and Complexity Letters, 2(2/3): 5

Fründ I, Busch NA, Körner U, Schadow J, Herrmann CS. (2007).
EEG oscillations in the gamma and alpha range respond differently to spatial frequency.
Vision Research, 47(15): 2086-2098.
[PubMed]

Fründ I, Busch NA, Schadow J, Körner U, Herrmann CS. (2007).
From perception to action: phase-locked gamma oscillations correlate with reaction times in a speeded response task.
BMC Neuroscience, 8: 27.
[PDF] [PubMed]

Demiralp T, Herrmann CS, Erdal ME, Ergenoglu T, Keskin YH, Ergen M, Beydagi H. (2007).
DRD4 and DAT1 polymorphisms modulate human gamma band responses.
Cerebral Cortex, 17(5): 1007-1019.
[PDF] [PubMed]

Demiralp T, Bayraktaroglu Z, Lenz D, Junge S, Busch NA, Maess B, Ergen M, Herrmann CS. (2007).
Gamma amplitudes are coupled to theta phase in human EEG during visual perception.
International Journal of Psychophysiology, 64: 24-30.
[PubMed]

Lenz D, Schadow J, Junge S, Busch NA, Herrmann CS. (2007).
What's that sound? Matches with auditory long-term memory induce gamma activity in human EEG.
International Journal of Psychophysiology, 64: 31-38.
[PubMed]

Fründ I, Busch NA, Körner U, Schadow J, Herrmann CS. (2007).
Evoked gamma oscillations in human scalp EEG are test-retest reliable.
Clinical Neurophysiology, 118(1): 221-227.
[PubMed]

Senkowski D, Talsma D, Grigutsch M, Herrmann CS, Woldorff MG. (2007).
Good times for multisensory integration: Effects of the precision of temporal synchrony as revealed by gamma-band oscillations.
Neuropsychologia, 45: 561-571.
[PubMed]

2006

Busch NA, Herrmann CS, Müller MM, Lenz D, Gruber T. (2006).
A cross-laboratory study of event-related gamma activity in a standard object-recognition paradigm.

Neuroimage, 33(4): 1169-1177.
[PubMed]

Maess B, Herrmann CS, Hahne A, Nakamura A, Friederici AD. (2006).
Localizing the distributed language network responsible for the N400 measured by MEG during auditory sentence processing .
Brain Research, 1096(1): 163-172.
[PubMed]

Kranczioch C, Debener S, Herrmann CS, Engel AK. (2006).
EEG gamma-band activity in rapid serial visual presentation.
Experimental Brain Research, 169(2): 246-254.
[PDF][PubMed]

Busch NA, Schadow J, Fründ I, Herrmann CS. (2006).
Time-frequency analysis of target detection reveals an early interface between bottom-up and top-down processes in the gamma-band.
Neuroimage, 29(4): 1106-1116.
[PubMed]

Morup M, Hansen LK, Herrmann CS, Parnas J, Arnfred S. (2006).
Parralel factor analysis as an exploratory tool for wavelet transformed event-related EEG.
Neuroimage, 29(3): 938-947.
[PubMed]

2005

Herrmann CS, Demiralp T. (2005).
Human EEG gamma oscillations in neuropsychiatric disorders.
Clinical Neurophysiology, 116(12): 2719-2733.
[PubMed]

Herrmann CS. (2005).
Gamma-Aktivität: Die psychopathologische Bedeutung hochfrequenter EEG-Oszillationen.
Zeitschrift für Neuropsychologie, 16(3): 151-162.
[PDF][Abstract]

Senkowski CD, Talsma D, Herrmann CS, Woldorff MG. (2005).
Multisensory processing and oscillatory gamma responses: effects of spatial selective attention.
Experimental Brain Research, 166(3-4): 411-426
[PDF][PubMed]

Ohla K, Busch NA, Dahlem MA, Herrmann CS. (2005).
Circles are different: Glass pattern perception modulates early event-related potentials.
Vision Research, 45(20): 2668-2676.
[PDF][PubMed]

Senkowski D, Röttger S, Grimm S, Foxe JJ, Herrmann CS. (2005).
Kanizsa subjective figures capture visual spatial attention: evidence from electrophysiological and behavioral data.
Neuropsychologia, 43(6): 872-886.
[PubMed]

2004

Herrmann CS, Senkowski D, Röttger S. (2004).
Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task.
Experimental Psychology, 51(4): 311-318.
[PDF][PubMed]

Herrmann CS, Munk MHJ, Engel AK. (2004).
Cognitive functions of gamma-band activity: memory match and utilization.
Trends in Cognitive Sciences, 8(8): 347-355.
[PubMed]

Herrmann CS, Lenz D, Junge S, Busch NA, Maes B. (2004).
Memory-matches evoke human gamma-response.
BMC Neuroscience, 5: 13.
[PDF] [PubMed]

Busch NA, Debener S, Kranczioch C, Engel AK, Herrmann CS. (2004).
Size matters: Effects of stimulus size, duration, and eccentricity on the visual gamma-band response.
Clinical Neurophysiology, 115(8): 1810-1820.
[PubMed]

Gallinat J, Winterer G, Herrmann CS, Senkowski D. (2004).
Reduced oscillatory gamma responses in unmedicated schizophrenic patients indicate impaired frontal network processing .
Clinical Neurophysiology, 115(8): 1863-1874.
[PubMed]

Herrmann CS, Klaus A. (2004).
Autapse turns neuron into oscillator.
International Journal on Bifurcation and Chaos, 14 (2): 623-633.
[PDF][Abstract]

2003

Busch NA, Herrmann CS. (2003).
Object-load and feature-load modulate EEG in a short-term memory task.
Neuroreport, 14(13): 1721-1724.
[PubMed]

Herrmann CS, Friederici AD, Maess B, Oertel U, Hahne A, Alter K. (2003).
The brain generates its own sentence melody: A Gestalt phenomenon in speech perception.
Brain and language, 85(3): 396-401.
[PDF][PubMed]

Debener S, Herrmann CS, Kranczioch C, Gembris D, Engel AK. (2003)
Top-down attentional processing enhances auditory evoked gamma band activity.
Neuroreport, 14(5): 683-686.
[PubMed]

2002

Herrmann CS, Senkowski D, Maess B, Friederici AD. (2002).
Spatial versus object feature processing in human auditory cortex: a magnetoencephalographic study.
Neuroscience Letters, 334(1): 37-40.
[PDF][PubMed]

Senkowski D, Herrmann CS. (2002).
Effects of task difficulty on evoked gamma activity and ERPs in a visual discrimination task.
Clinical Neurophysiology, 113(11): 1742-1753.
[PDF][PubMed]

Debener S, Kranczioch C, Herrmann CS, Engel AK. (2002).
Auditory novelty oddball allows reliable distinction of top-down and bottom-up processes of attention.
International Journal of Psychophysiology, 46: 77-84.
[PubMed]

Strüber D, Herrmann CS. (2002).
MEG alpha activity decrease reflects destabilization of multistable percepts.
Cognitive Brain Research, 14(3): 370-382.
[PubMed]

Böttger D, Herrmann CS, von Cramon DY. (2002).
Amplitude differences of evoked alpha and gamma oscillations in two different age groups.
International Journal of Psychophysiology, 45(3): 245-251.
[PDF] [PubMed]

2001

Herrmann CS, Knight RT. (2001).
Mechanisms of human attention: event-related potentials and oscillations.
Neuroscience and Biobehavioral Reviews, 25(6): 465-476.
[PubMed] [doi: 10.1016/S0149-7634(01)00027-6]

Kruggel F, Herrmann CS, Wiggins CJ, von Cramon DY. (2001).
Hemodynamic and electroencephalographic responses to illusory figures: recording of the evoked potentials during functional MRI.
Neuroimage, 14: 1327-1336.
[PubMed] [doi: 10.1006/nimg.2001.0948]

Herrmann CS, Friederici AD. (2001).
Object processing in the infant brain.
Science, 292: 163.
[PubMed]

Herrmann CS, Bosch V. (2001).
Gestalt perception modulates early visual processing.
Neuroreport, 12 (5): 901-904.
[PubMed]

Herrmann CS. (2001).
Human EEG responses to 1-100 Hz flicker: Resonance phenomena in visual cortex and their potential correlation to cognitive phenomena.
Experimental Brain Research, 137: 346-353.
[PDF][PubMed]

Herrmann CS, Arnold T, Visbeck A, Hundemer HP, Hopf HC. (2001).
Adaptive frequency decomposition of EEG with subsequent expert system analysis.
Computers in Biology and Medicine, 31(6): 407-427.
[PubMed]

Herrmann CS, Mecklinger A. (2001).
Gamma activity in human EEG is related to high-speed memory comparisons during object selective attention.
Visual cognition, 8(3/4): 593-608.
[Abstract]

Elliott MA, Müller HJ, Herrmann CS, Mecklinger A. (2001).
Neural binding of space and time: An introduction.
Visual cognition, 8(3/4): 273-285.
[PDF][Abstract]

Chen ACN, Herrmann CS. (2001).
Perception of pain coincides with the spatial expansion of human EEG dynamics.
Neuroscience Letters, 297(3): 183-186.
[PubMed]

2000

Halboni P, Kaminski R, Gobbele R, Züchner S, Waberski TD, Herrmann CS, Töpper R, Buchner H. (2000).
Sleep stage dependant changes of the high-frequency part of the somatosensory evoked potential at the thalamus and cortex.
Clinical Neurophysiology, 111(12): 2277-2284.
[PubMed]

Friederici AD, Wang Y, Herrmann CS, Maess B, Oertel U. (2000).
Localization of early syntactic processes in frontal and temporal cortical areas: A magnetoencephalographic study.
Human Brain Mapping, 11: 1-11.
[PubMed]

Kruggel F, Wiggins CJ, Herrmann CS, von Cramon DY. (2000).
Recording of event-related potentials during functional MRI at 3.0 Tesla field strength.
Magnetic Resonance in Medicine, 44(2): 277-282.
[PubMed]

Herrmann CS. (2000).
Gamma activity as a functional correlate of cognition.
International Journal of Psychophysiology, 38(3): VII-VIII.
[PubMed]

Elliott MA, Herrmann CS, Mecklinger A, Müller HJ. (2000)
The loci of oscillatory visual-object priming: A combined electroencephalographic and reaction-time study.
International Journal of Psychophysiology, 38(3): 225-241.
[PDF][PubMed]

Herrmann CS, Mecklinger A. (2000).
Magnetoencephalographic responses to illusory figures: Early evoked gamma is affected by processing of stimulus features.
International Journal of Psychophysiology, 38(3): 265-281.
[PubMed]

Herrmann CS, Oertel U, Wang Y, Maess B, Friederici AD. (2000).
Noise affects auditory and linguistic processing differently: An MEG study.
Neuroreport, 11(2): 227-229.
[PubMed]

1999

Herrmann CS, Mecklinger A, Pfeiffer E. (1999).
Gamma responses and ERPs in a visual classification task.
Clinical Neurophysiology, 110(4): 636-642.
[PDF][PubMed]

1997

Herrmann CS. (1997).
Symbolical Reasoning about Numerical Data: A Hybrid Approach.
Applied Intelligence, 7(4): 339-354.
[PDF] [Abstract]

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