[1] J Viventi, DH Kim, L Vigeland, ES Frechette, JA Blanco et al. Flexible, foldable, actively multiplexed, high-density electrode array for mapping brain activity invivo. Nat Neurosci, 14, 1599-1605(2011).

[2] KK Ghosh, LD Burns, ED Cocker, A Nimmerjahn, Y Ziv et al. Miniaturized integration of a fluorescence microscope. Nat Methods, 8, 871-878(2011).

[3] WJ Yang, R Yuste. In vivo imaging of neural activity. Nat Methods, 14, 349-359(2017).

[4] TH Kim, MJ Schnitzer. Fluorescence imaging of large-scale neural ensemble dynamics. Cell, 185, 9-41(2022).

[5] ES Boyden. Optogenetics and the future of neuroscience. Nat Neurosci, 18, 1200-1201(2015).

[6] H Qin, J Lu, WJ Jin, XW Chen, L Fu. Multichannel fiber photometry for mapping axonal terminal activity in a restricted brain region in freely moving mice. Neurophotonics, 6, 035011(2019).

[7] A Stroh, H Adelsberger, A Groh, C Rühlmann, S Fischer et al. Making waves: initiation and propagation of corticothalamic Ca2+ waves in vivo. Neuron, 77, 1136-1150(2013).

[8] CK Kim, SJ Yang, N Pichamoorthy, NP Young, I Kauvar et al. Simultaneous fast measurement of circuit dynamics at multiple sites across the mammalian brain. Nat Methods, 13, 325-328(2016).

[9] ZY Qi, QC Guo, S Wang, MY Jia, XW Gao et al. All-fiber-transmission photometry for simultaneous optogenetic stimulation and multi-color neuronal activity recording. Opto-Electron Adv, 5, 210081(2022).

[10] HC Tsai, F Zhang, A Adamantidis, GD Stuber, A Bonci et al. Phasic firing in dopaminergic neurons is sufficient for behavioral conditioning. Science, 324, 1080-1084(2009).

[11] D Chaudhury, JJ Walsh, AK Friedman, B Juarez, SM Ku et al. Rapid regulation of depression-related behaviours by control of midbrain dopamine neurons. Nature, 493, 532-536(2013).

[12] F Pisano, M Pisanello, SJ Lee, J Lee, E Maglie et al. Depth-resolved fiber photometry with a single tapered optical fiber implant. Nat Methods, 16, 1185-1192(2019).

[13] JS Marvin, Y Shimoda, V Magloire, M Leite, T Kawashima et al. A genetically encoded fluorescent sensor for in vivo imaging of GABA. Nat Methods, 16, 763-770(2019).

[14] FM Sun, JH Zhou, B Dai, TR Qian, JZ Zeng et al. Next-generation GRAB sensors for monitoring dopaminergic activity in vivo. Nat Methods, 17, 1156-1166(2020).

[15] WJ Wang, CK Kim, AY Ting. Molecular tools for imaging and recording neuronal activity. Nat Chem Biol, 15, 101-110(2019).

[16] ZF Liang, YC Ma, GDR Watson, NY Zhang. Simultaneous GCaMP6-based fiber photometry and fMRI in rats. J Neurosci Methods, 289, 31-38(2017).

[17] THH Chao, WT Zhang, LM Hsu, DH Cerri, TW Wang et al. Computing hemodynamic response functions from concurrent spectral fiber-photometry and fMRI data. Neurophotonics, 9, 032205(2022).

[18] A Chakravarti, AH Marangalou, IM Costanzo, D Sen, M Sciulli et al. Wireless photometry prototype for tri-color excitation and multi-region recording. Micromachines, 13, 727(2022).