you fill my lungs with sweetness, and you fill my head with you
by lavenderpillowcase
Robbe knew his best friend. He could see when he was sad, sense when he was angry, feel when he was happy. It was a skill he prided himself on. So when Lucas came along, Robbe could tell that Jens was in love.
He saw the looks Jens gave the new boy from across the courtyard, full of awe and yearning, but every time Jens turned back to their lunch table, Robbe pretended he didn’t notice.
Robbe also knew how scary it was to recognize that what you felt was love. So he didn’t tease, or laugh, or judge.
He knew it was what Jens needed.
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Or, Glimpses of Jens and Lucas' relationship, through the eyes of Robbe.
Words: 2303, Chapters: 1/1, Language: English
Fandoms: SKAM (Netherlands), WTFock | SKAM (Belgium)
Rating: General Audiences
Warnings: No Archive Warnings Apply
Categories: Gen, M/M
Characters: Jens Stoffels, Lucas van der Heijden, Robbe IJzermans, Sander Driesen, Moyo Makadi, Aaron Jacobs (WTFock), Mentioned Lotte Stoffels, Broerrrs (WTFock)
Relationships: Jens Stoffels/Lucas van der Heijden, Sander Driesen/Robbe IJzermans, Robbe IJzermans & Jens Stoffels
Additional Tags: Fluff, Fluff and Humor, Domestic Fluff, Domestic, Cuddling & Snuggling, Sleepy Cuddles, Boy Squad, WTFock Boy Squad, Out of Character, probably, POV Outsider, Robbe's POV, VDS Centric, robbe being an observant sweetheart, lucas and jens are disgustingly in love, soft, Drawing, using pulse points as a way to show affection
from AO3 works tagged 'Sander Driesen/Robbe IJzermans' https://ift.tt/HVTYx8g
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Interesting Papers for Week 10, 2023
A computational model to explore how temporal stimulation patterns affect synapse plasticity. Amano, R., Nakao, M., Matsumiya, K., & Miwakeichi, F. (2022). PLOS ONE, 17(9), e0275059.
Distinct population and single-neuron selectivity for executive and episodic processing in human dorsal posterior cingulate. Aponik-Gremillion, L., Chen, Y. Y., Bartoli, E., Koslov, S. R., Rey, H. G., Weiner, K. S., … Foster, B. L. (2022). eLife, 11, e80722.
Hippocampal astrocytes encode reward location. Doron, A., Rubin, A., Benmelech-Chovav, A., Benaim, N., Carmi, T., Refaeli, R., … Goshen, I. (2022). Nature, 609(7928), 772–778.
Classical center-surround receptive fields facilitate novel object detection in retinal bipolar cells. Gaynes, J. A., Budoff, S. A., Grybko, M. J., Hunt, J. B., & Poleg-Polsky, A. (2022). Nature Communications, 13, 5575.
Inferring stimulation induced short-term synaptic plasticity dynamics using novel dual optimization algorithm. Ghadimi, A., Steiner, L. A., Popovic, M. R., Milosevic, L., & Lankarany, M. (2022). PLOS ONE, 17(9), e0273699.
Context-dependent selectivity to natural images in the retina. Goldin, M. A., Lefebvre, B., Virgili, S., Pham Van Cang, M. K., Ecker, A., Mora, T., … Marre, O. (2022). Nature Communications, 13, 5556.
Dendritic axon origin enables information gating by perisomatic inhibition in pyramidal neurons. Hodapp, A., Kaiser, M. E., Thome, C., Ding, L., Rozov, A., Klumpp, M., … Both, M. (2022). Science, 377(6613), 1448–1452.
Long‐term modulation of the axonal refractory period. Jankowska, E., Kaczmarek, D., & Hammar, I. (2022). European Journal of Neuroscience, 56(7), 4983–4999.
Flexible control as surrogate reward or dynamic reward maximization. Liljeholm, M. (2022). Cognition, 229, 105262.
Mixed synapses reconcile violations of the size principle in zebrafish spinal cord. Menelaou, E., Kishore, S., & McLean, D. L. (2022). eLife, 11, e64063.
Adolescents sample more information prior to decisions than adults when effort costs increase. Niebaum, J. C., Kramer, A.-W., Huizenga, H. M., & van den Bos, W. (2022). Developmental Psychology, 58(10), 1974–1985.
Neural signatures of evidence accumulation in temporal decisions. Ofir, N., & Landau, A. N. (2022). Current Biology, 32(18), 4093-4100.e6.
Offset responses in the auditory cortex show unique history dependence. Olsen, T., & Hasenstaub, A. (2022). Journal of Neuroscience, 42(39), 7370–7385.
Look-up and look-down neurons in the mouse visual thalamus during freely moving exploration. Orlowska-Feuer, P., Ebrahimi, A. S., Zippo, A. G., Petersen, R. S., Lucas, R. J., & Storchi, R. (2022). Current Biology, 32(18), 3987-3999.e4.
Interaction of bottom-up and top-down neural mechanisms in spatial multi-talker speech perception. Patel, P., van der Heijden, K., Bickel, S., Herrero, J. L., Mehta, A. D., & Mesgarani, N. (2022). Current Biology, 32(18), 3971-3986.e4.
Spatial distances affect temporal prediction and interception. Schroeger, A., Grießbach, E., Raab, M., & Cañal-Bruland, R. (2022). Scientific Reports, 12, 15786.
Never run a changing system: Action-effect contingency shapes prospective agency. Schwarz, K. A., Klaffehn, A. L., Hauke-Forman, N., Muth, F. V., & Pfister, R. (2022). Cognition, 229, 105250.
Contraction bias in temporal estimation. Tal-Perry, N., & Yuval-Greenberg, S. (2022). Cognition, 229, 105234.
Response Time Distributions and the Accumulation of Visual Evidence in Freely Moving Mice. Treviño, M., Medina-Coss y León, R., & Lezama, E. (2022). Neuroscience, 501, 25–41.
Active neural coordination of motor behaviors with internal states. Zhang, Y. S., Takahashi, D. Y., El Hady, A., Liao, D. A., & Ghazanfar, A. A. (2022). Proceedings of the National Academy of Sciences, 119(39), e2201194119.
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