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01. MSIS Option 1: Time Independent#

This example demonstrates the analysis of MSIS Option 1, which controls Baseline atmospheric structure. This option represents a key physical process that affects atmospheric density variations.

Understanding how this option affects atmospheric structure is important for atmospheric modeling, satellite operations, and space weather applications.

import matplotlib.pyplot as plt
from msis_options_utils import create_option_analysis_figure

Option 1 controls Baseline atmospheric structure#

This atmospheric effect includes:

  • Baseline atmospheric structure that varies with latitude

  • North-south atmospheric density and temperature gradients

  • Geographic variations in atmospheric properties

  • Time-independent latitude-dependent reference state

This analysis shows how turning OFF this option affects atmospheric density across different dimensions and conditions.

option_index = 1
option_name = "Time Independent"

fig = create_option_analysis_figure(option_index, option_name)
Comprehensive Analysis: MSIS Time Independent Option Atmospheric density changes when option is turned OFF F10.7=180, Ap=15, A) Altitude Profiles, B) Geographic Pattern at 300 km, C) Diurnal Cycle at 45°N, 300 km, D) Seasonal Cycle at 45°N, 300 km

Understanding the Results#

Panel A (Altitude Profiles): Shows how this effect varies with altitude and between different seasonal and diurnal conditions. Look for differences between the four curves to understand temporal variability.

Panel B (Geographic Map): Reveals the global pattern of this atmospheric effect. The contour plot shows percentage changes when the option is turned OFF compared to the baseline (all options ON).

Panel C (Diurnal Cycle): Demonstrates how this effect varies throughout a 24-hour period at a fixed location (45°N, 0°E, 300 km altitude).

Panel D (Seasonal Cycle): Shows how the strength of this effect varies throughout the year, revealing seasonal dependencies.

plt.show()

Physical Importance#

This atmospheric effect is important because:

  • Provides fundamental atmospheric structure from poles to equator

  • Essential for accurate geographic atmospheric modeling

  • Critical for understanding latitude-dependent atmospheric behavior

  • Foundation for all other atmospheric variations

When this option is turned OFF, these physical processes are removed from the atmospheric model, which can significantly impact the accuracy of density predictions depending on the specific application and conditions.

Total running time of the script: (0 minutes 0.771 seconds)

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