Add to ORKGAlong with minimizing parameter uncertainty, understanding the cause of temporal and spatial variability of the nucleated ice crystal number, Ni, is key to improving the representation of cirrus clouds in climate models. To this end, sensitivities of Ni to input variables like aerosol number and diameter provide valuable information about nucleation regime and efficiency for a given model formulation. Here we use the adjoint model of the adjoint of a cirrus formation parameterization (Barahona and Nenes, 2009b) to understand Ni variability for various ice-nucleating particle (INP) spectra. Inputs are generated with the Community Atmosphere Model version 5, and simulations are done with a theoretically derived spectrum, an empirical lab-base...
Paper associated with the CWVC (Clouds, Water Vapour and Climate) dataset held on the CEDA archive
Ice-nucleating particles (INPs) can exert important influences on the formation and the microphysica...
Cirrus ice crystals are produced heterogeneously on ice-nucleating particles (INPs) and homogeneousl...
Along with minimizing parameter uncertainty, understanding the cause of temporal and spatial variabi...
We present the adjoint of a cirrus formation parameterization that computes the sensitivity of ice c...
A comprehensive ice nucleation parameterization has been implemented in the global chemistry-climate...
[1] Motivated by the need to study the climatic impact of aerosol-related cirrus cloud changes, a ph...
Atmospheric aerosols can act as ice-nucleating particles (INPs) and thereby exert important influenc...
This study presents the sensitivity of global ice crystal number concentration, Nc, to the parameter...
In this study the effect of dust aerosol on upper tropospheric cirrus clouds through heterogeneous i...
The relative importance of heterogeneous and homogeneous ice nucleation for cirrus formation remains...
This study develops an advanced physically-based parameterization of heterogeneous ice nucleation in...
In order to study aerosol–cloud interactions in cirrus clouds, we apply a new multiple-mode ice micr...
In this talk, I will begin by discussing the physical processes that govern the competition between ...
A multiple-mode ice microphysical scheme is applied in the European Centre/Hamburg (ECHAM) general c...
Paper associated with the CWVC (Clouds, Water Vapour and Climate) dataset held on the CEDA archive
Ice-nucleating particles (INPs) can exert important influences on the formation and the microphysica...
Cirrus ice crystals are produced heterogeneously on ice-nucleating particles (INPs) and homogeneousl...
Along with minimizing parameter uncertainty, understanding the cause of temporal and spatial variabi...
We present the adjoint of a cirrus formation parameterization that computes the sensitivity of ice c...
A comprehensive ice nucleation parameterization has been implemented in the global chemistry-climate...
[1] Motivated by the need to study the climatic impact of aerosol-related cirrus cloud changes, a ph...
Atmospheric aerosols can act as ice-nucleating particles (INPs) and thereby exert important influenc...
This study presents the sensitivity of global ice crystal number concentration, Nc, to the parameter...
In this study the effect of dust aerosol on upper tropospheric cirrus clouds through heterogeneous i...
The relative importance of heterogeneous and homogeneous ice nucleation for cirrus formation remains...
This study develops an advanced physically-based parameterization of heterogeneous ice nucleation in...
In order to study aerosol–cloud interactions in cirrus clouds, we apply a new multiple-mode ice micr...
In this talk, I will begin by discussing the physical processes that govern the competition between ...
A multiple-mode ice microphysical scheme is applied in the European Centre/Hamburg (ECHAM) general c...
Paper associated with the CWVC (Clouds, Water Vapour and Climate) dataset held on the CEDA archive
Ice-nucleating particles (INPs) can exert important influences on the formation and the microphysica...
Cirrus ice crystals are produced heterogeneously on ice-nucleating particles (INPs) and homogeneousl...