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maic2_variables Module Reference

Declarations of global variables for MAIC-2. More...

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Public Attributes

real(dp), dimension(0:lmax) phi_node
 phi_node(l): Latitude of grid point
real(dp), dimension(0:lmax) phi_cb1
 phi_cb1(l): Latitude of lower cell boundary
real(dp), dimension(0:lmax) phi_cb2
 phi_cb2(l): Latitude of upper cell boundary
real(dp), dimension(0:lmax) cos_phi_cb1
 cos_phi_cb1(l): Cosine of phi_cb1(l)
real(dp), dimension(0:lmax) cos_phi_cb2
 cos_phi_cb2(l): Cosine of phi_cb2(l)
real(dp), dimension(0:lmax) sin_phi_cb1
 sin_phi_cb1(l): Sine of phi_cb1(l)
real(dp), dimension(0:lmax) sin_phi_cb2
 sin_phi_cb2(l): Sine of phi_cb2(l)
real(dp), dimension(lmax) dphi
 dphi(l): Grid spacing
real(dp), dimension(lmax) dphi_inv
 dphi_inv(l): Inverse of the grid spacing
real(dp), dimension(0:lmax) temp_surf
 temp_surf(l): Daily mean surface temperature
real(dp), dimension(0:lmax) temp_surf_amp
 temp_surf_amp(l): Amplitude of the daily cycle of the surface temperature
real(dp), dimension(0:lmax) temp_co2
 temp_co2(l): CO2 condensation temperature
real(dp), dimension(0:lmax) p_surf
 p_surf(l): Surface pressure
real(dp), dimension(0:lmax) water
 water(l): Water content in the atmosphere
real(dp), dimension(0:lmax) water_new
 (.)_new: New value of quantity (.) computed during an integration step
real(dp), dimension(0:lmax) cond
 cond(l): Condensation rate
real(dp), dimension(0:lmax) evap
 evap(l): Evaporation rate
real(dp), dimension(0:lmax) a_net
 a_net(l): Net surface mass balance of water ice
real(dp), dimension(0:lmax) h
 H(l): Ice thickness.
real(dp), dimension(0:lmax) h_new
 (.)_new: New value of quantity (.) computed during an integration step
real(dp) rho
 RHO: Density of ice-dust mixture.
real(dp) rho_i
 RHO_I: Density of ice.
real(dp) rho_w
 RHO_W: Density of pure water.
real(dp) g
 G: Acceleration due to gravity.
real(dp) r
 R: Radius of Mars.
real(dp) rho_inv
 rho_inv: Inverse of the density of ice-dust mixture
integer(i4b) insol_time_min
 insol_time_min: Minimum time of the data values for the insolation etc.
integer(i4b) insol_time_stp
 insol_time_stp: Time step of the data values for the insolation etc.
integer(i4b) insol_time_max
 insol_time_max: Maximum time of the data values for the insolation etc.
integer(i4b) itercount
 itercount: Counter for the number of time integration steps
real(dp), dimension(0:100000) insol_ma_90
 insol_ma_90(n): Data for the mean-annual north- or south-polar insolation
real(dp), dimension(0:100000) obl_data
 obl_data(n): Data for the obliquity
real(dp), dimension(0:100000) ecc_data
 ecc_data(n): Data for the eccentricity
real(dp), dimension(0:100000) ave_data
 ave_data(n): Data for the anomaly of vernal equinox (= 360 deg - Ls of perihelion )
real(dp), dimension(0:100000) cp_data
 cp_data(n): Data for Laskar's climate parameter = eccentricity *sin(Laskar's longitude of perihelion from moving equinox), ( where Laskar's longitude of perihelion from moving equinox = Ls of perihelion - 180 deg )
real(dp), dimension(0:ntime) ls_tab
 ls_tab(n): Solar longitudes (orbital positions with respect to vernal equinox) over a Martian year
real(dp), dimension(0:ntime) psi_tab
 psi_tab(n): True anomalies (orbital positions with respect to perihelion) over a Martian year
real(dp), dimension(0:lmax) diff_aux
 diff_aux(l): Auxiliary quantity needed for the diffusional transport
integer(i4b) n_output
 n_output: Number of specified times for data output
real(dp) dtime_out
 dtime_out: Time step for data output
real(dp), dimension(100) time_output
 time_output(n): Specified times for data output
integer(i4b) iter_out
 iter_out: Intervall of integration steps for data output
integer(i4b), dimension(100) iter_output
 iter_output(n): Specified integration steps for data output
real(dp), parameter pi = 3.141592653589793_dp
 pi: Mathematical constant
real(dp), parameter pi_inv = 1.0_dp/pi
 pi_inv: Inverse of pi
real(dp), parameter pi_180 = pi/180.0_dp
 pi_180: pi divided by 180 (-> deg to rad)
real(dp), parameter pi_180_inv = 180.0_dp/pi
 pi_180_inv: 180 divided by pi (-> rad to deg)
real(dp), parameter eps = 1.0e-05_dp
 eps: Small number

Detailed Description

Declarations of global variables for MAIC-2.

Definition at line 35 of file maic2_variables.F90.


Member Data Documentation

real(dp), dimension(0:lmax) maic2_variables::a_net

a_net(l): Net surface mass balance of water ice

Definition at line 76 of file maic2_variables.F90.

real(dp), dimension(0:100000) maic2_variables::ave_data

ave_data(n): Data for the anomaly of vernal equinox (= 360 deg - Ls of perihelion )

Definition at line 116 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::cond

cond(l): Condensation rate

Definition at line 72 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::cos_phi_cb1

cos_phi_cb1(l): Cosine of phi_cb1(l)

Definition at line 48 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::cos_phi_cb2

cos_phi_cb2(l): Cosine of phi_cb2(l)

Definition at line 50 of file maic2_variables.F90.

real(dp), dimension(0:100000) maic2_variables::cp_data

cp_data(n): Data for Laskar's climate parameter = eccentricity *sin(Laskar's longitude of perihelion from moving equinox), ( where Laskar's longitude of perihelion from moving equinox = Ls of perihelion - 180 deg )

Definition at line 122 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::diff_aux

diff_aux(l): Auxiliary quantity needed for the diffusional transport

Definition at line 132 of file maic2_variables.F90.

real(dp), dimension(lmax) maic2_variables::dphi

dphi(l): Grid spacing

Definition at line 56 of file maic2_variables.F90.

real(dp), dimension(lmax) maic2_variables::dphi_inv

dphi_inv(l): Inverse of the grid spacing

Definition at line 58 of file maic2_variables.F90.

real(dp) maic2_variables::dtime_out

dtime_out: Time step for data output

Definition at line 137 of file maic2_variables.F90.

real(dp), dimension(0:100000) maic2_variables::ecc_data

ecc_data(n): Data for the eccentricity

Definition at line 113 of file maic2_variables.F90.

real(dp), parameter maic2_variables::eps = 1.0e-05_dp

eps: Small number

Definition at line 154 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::evap

evap(l): Evaporation rate

Definition at line 74 of file maic2_variables.F90.

real(dp) maic2_variables::g

G: Acceleration due to gravity.

Definition at line 91 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::h

H(l): Ice thickness.

Definition at line 78 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::h_new

(.)_new: New value of quantity (.) computed during an integration step

Definition at line 80 of file maic2_variables.F90.

real(dp), dimension(0:100000) maic2_variables::insol_ma_90

insol_ma_90(n): Data for the mean-annual north- or south-polar insolation

Definition at line 109 of file maic2_variables.F90.

integer(i4b) maic2_variables::insol_time_max

insol_time_max: Maximum time of the data values for the insolation etc.

Definition at line 104 of file maic2_variables.F90.

integer(i4b) maic2_variables::insol_time_min

insol_time_min: Minimum time of the data values for the insolation etc.

Definition at line 100 of file maic2_variables.F90.

integer(i4b) maic2_variables::insol_time_stp

insol_time_stp: Time step of the data values for the insolation etc.

Definition at line 102 of file maic2_variables.F90.

integer(i4b) maic2_variables::iter_out

iter_out: Intervall of integration steps for data output

Definition at line 141 of file maic2_variables.F90.

integer(i4b), dimension(100) maic2_variables::iter_output

iter_output(n): Specified integration steps for data output

Definition at line 143 of file maic2_variables.F90.

integer(i4b) maic2_variables::itercount

itercount: Counter for the number of time integration steps

Definition at line 106 of file maic2_variables.F90.

real(dp), dimension(0:ntime) maic2_variables::ls_tab

ls_tab(n): Solar longitudes (orbital positions with respect to vernal equinox) over a Martian year

Definition at line 126 of file maic2_variables.F90.

integer(i4b) maic2_variables::n_output

n_output: Number of specified times for data output

Definition at line 135 of file maic2_variables.F90.

real(dp), dimension(0:100000) maic2_variables::obl_data

obl_data(n): Data for the obliquity

Definition at line 111 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::p_surf

p_surf(l): Surface pressure

Definition at line 66 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::phi_cb1

phi_cb1(l): Latitude of lower cell boundary

Definition at line 44 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::phi_cb2

phi_cb2(l): Latitude of upper cell boundary

Definition at line 46 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::phi_node

phi_node(l): Latitude of grid point

Definition at line 42 of file maic2_variables.F90.

real(dp), parameter maic2_variables::pi = 3.141592653589793_dp

pi: Mathematical constant

Definition at line 146 of file maic2_variables.F90.

real(dp), parameter maic2_variables::pi_180 = pi/180.0_dp

pi_180: pi divided by 180 (-> deg to rad)

Definition at line 150 of file maic2_variables.F90.

real(dp), parameter maic2_variables::pi_180_inv = 180.0_dp/pi

pi_180_inv: 180 divided by pi (-> rad to deg)

Definition at line 152 of file maic2_variables.F90.

real(dp), parameter maic2_variables::pi_inv = 1.0_dp/pi

pi_inv: Inverse of pi

Definition at line 148 of file maic2_variables.F90.

real(dp), dimension(0:ntime) maic2_variables::psi_tab

psi_tab(n): True anomalies (orbital positions with respect to perihelion) over a Martian year

Definition at line 129 of file maic2_variables.F90.

real(dp) maic2_variables::r

R: Radius of Mars.

Definition at line 93 of file maic2_variables.F90.

real(dp) maic2_variables::rho

RHO: Density of ice-dust mixture.

Definition at line 85 of file maic2_variables.F90.

real(dp) maic2_variables::rho_i

RHO_I: Density of ice.

Definition at line 87 of file maic2_variables.F90.

real(dp) maic2_variables::rho_inv

rho_inv: Inverse of the density of ice-dust mixture

Definition at line 95 of file maic2_variables.F90.

real(dp) maic2_variables::rho_w

RHO_W: Density of pure water.

Definition at line 89 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::sin_phi_cb1

sin_phi_cb1(l): Sine of phi_cb1(l)

Definition at line 52 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::sin_phi_cb2

sin_phi_cb2(l): Sine of phi_cb2(l)

Definition at line 54 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::temp_co2

temp_co2(l): CO2 condensation temperature

Definition at line 64 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::temp_surf

temp_surf(l): Daily mean surface temperature

Definition at line 60 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::temp_surf_amp

temp_surf_amp(l): Amplitude of the daily cycle of the surface temperature

Definition at line 62 of file maic2_variables.F90.

real(dp), dimension(100) maic2_variables::time_output

time_output(n): Specified times for data output

Definition at line 139 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::water

water(l): Water content in the atmosphere

Definition at line 68 of file maic2_variables.F90.

real(dp), dimension(0:lmax) maic2_variables::water_new

(.)_new: New value of quantity (.) computed during an integration step

Definition at line 70 of file maic2_variables.F90.


The documentation for this module was generated from the following file: