The parameters for the plasma density model, the observational frequency fobs = c/λ. |$N_0^{\mathrm{ pl},v}$| is the volume density of power-law model at |$R_0^{\mathrm{ pl},v}$|.
| fobs . | |$N_0^{\mathrm{ pl},v}$| . | |$R_0^{\mathrm{ pl},v}$| . | |$N_0^{\mathrm{ exp}}$| . |
|---|---|---|---|
| 375 MHz | |$10^{-3}\, \mathrm{cm^{-3}}$| | 10 kpc | |$500\, \mathrm{pc\, cm^{-3}}$| |
| fobs . | |$N_0^{\mathrm{ pl},v}$| . | |$R_0^{\mathrm{ pl},v}$| . | |$N_0^{\mathrm{ exp}}$| . |
|---|---|---|---|
| 375 MHz | |$10^{-3}\, \mathrm{cm^{-3}}$| | 10 kpc | |$500\, \mathrm{pc\, cm^{-3}}$| |
The parameters for the plasma density model, the observational frequency fobs = c/λ. |$N_0^{\mathrm{ pl},v}$| is the volume density of power-law model at |$R_0^{\mathrm{ pl},v}$|.
| fobs . | |$N_0^{\mathrm{ pl},v}$| . | |$R_0^{\mathrm{ pl},v}$| . | |$N_0^{\mathrm{ exp}}$| . |
|---|---|---|---|
| 375 MHz | |$10^{-3}\, \mathrm{cm^{-3}}$| | 10 kpc | |$500\, \mathrm{pc\, cm^{-3}}$| |
| fobs . | |$N_0^{\mathrm{ pl},v}$| . | |$R_0^{\mathrm{ pl},v}$| . | |$N_0^{\mathrm{ exp}}$| . |
|---|---|---|---|
| 375 MHz | |$10^{-3}\, \mathrm{cm^{-3}}$| | 10 kpc | |$500\, \mathrm{pc\, cm^{-3}}$| |
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