There are holes of .01 transmission in the filter every 500 bins.
The in band (.015 cm^-1 to .025 cm^-1) power from the source (no units): 0.464051
The out of band power from the source: 0
The in band (.015 cm^-1 to .025 cm^-1) power in ergs per second per centimeter squared due to the 300K filter is: 1983.47
The out of band power in ergs per second per centimeter squared due to the 300K filter is: 0
The in band (.015 cm^-1 to .025 cm^-1) power in ergs per second per centimeter squared due to the 100K filter is: 0
The out of band power in ergs per second per centimeter squared due to the 100K filter is: 0
The combined in band power from both the 300K and 100K filter is: 1983.47
The combined out of band power from both the 300K and 100K filter is: 0
The load on the filter from the 300K blackbody in ergs per second per centimeter squared is: 586113
The load on the filter from the 100K blackbody in ergs per centimeter squared is: 8349.16
The load on the filter from both blackbodies in ergs per second per centimeter squared is: 594463
The fractional increase in the noise for the 300K filter is: 0
The fractional increase in the noise for the 100K filter is: nan
The fractional increase in the noise for the both the 300 and 100K filters is: 0
The polarimetric measurement error is: 0
The inband transmission is: 0.702
The fractional increase in the loading for the source is: 0
The fractional increase in the loading for the 300K filter is: 0
The fractional increase in the loading for the 100K filter is: nan (Not A Number: division by zero)
The fractional increase in the loading for both filters is: 0