Shuai Ren

Jan 24, 2025 | journals.plos.org | Shuai Ren

Jun 27, 2024 | nature.com | Shuai Ren |César Terrer |Juan Li |Shanshan Yang

Correction to: Nature Climate Change https://doi.org/10.1038/s41558-024-01957-9, published online 15 March 2024In the version of the article initially published, in equation (2), “+ 0.31” originally read “+ 0.25”. In the “Meta-analysis” section of the Methods, “((elnR−1) × 100)” originally read “(e(lnR−1) × 100)”. These corrections have been made to the HTML and PDF versions of the article. About this articleRen, S., Terrer, C., Li, J. et al.

Mar 15, 2024 | nature.com | Shuai Ren |César Terrer |Juan Li |Shanshan Yang

AbstractGrazing has been associated with contrasting effects on soil carbon stocks at local scales, but accurate global assessments of its net impact are lacking. Here we conducted a meta-analysis of 1,473 soil carbon observations from grazing studies to quantify global changes in soil carbon stocks due to grazing practices. Our analysis shows that grazing has reduced soil carbon stocks at 1-m depth by 46 ± 13 PgC over the past 60 years.

Mar 31, 2023 | opg.optica.org | Haifeng Wang |Bo Chen |Peng Zhou |Shuai Ren

AbstractPinholes in ${\rm Al}/{{\rmMgF}_2}$ were first inferred by thetransmittance enhancement in Larruquert group’s research. However, nodirect proof was reported to verify the existence of the pinholes in ${\rm Al}/{{\rmMgF}_2}$. In the past 80 years,pinholes were first observed by dark-field microscopy and bright-fieldmicroscopy in the transmission mode. They were small and on the orderof several hundred nanometers to several micrometers.

Mar 24, 2023 | opg.optica.org | Haifeng Wang |Bo Chen |Peng Zhou |Shuai Ren

AbstractThe emission lines of 140–180 nm are auroral bands of ${{\rm N}_2}$ Lyman–Birge–Hopfield, and they have been imaging targets of many satellites that need reflective mirrors. To obtain good imaging quality, the mirrors also should have excellent out-of-band reflection suppression as well as high reflectance at working wavelengths. We designed and fabricated non-periodic multilayer ${{\rm LaF}_3}/{{\rm MgF}_2}$ mirrors with working wave bands of 140–160 nm and 160–180 nm, respectively.