Systems and methods for dielectric mapping during pulsed-power drilling

What is claimed is: 1. A downhole drilling system, comprising: a pulse-generating circuit; a drill bit including a first pair of electrodes electrically coupled to the pulse-generating circuit to receive a first electrical pulse from the pulse-generating circuit and form a first electrical arc between the first pair of electrodes during a pulsed drilling operation; a sensor to record responses to the first electrical pulse during the pulsed drilling operation; and a sensor analysis system communicatively coupled to the sensor, the sensor analysis system configured to: generate an estimate of a dielectric constant; obtain a first measurement from the sensor, the first measurement representing the responses recorded by the sensor during the pulsed drilling operation; determine a measured value of a dielectric constant based on the first measurement; determine that the estimate of the dielectric constant and the measured value of the dielectric constant converge; and output a first value of a dielectric constant associated with a portion of a formation in proximity to the drill bit based, at least in part, on the convergence. 2. The downhole drilling system of claim 1 , wherein the sensor analysis system is further configured to determine an amount of charge deposited on the first pair of electrodes based on the first measurement, wherein: the first measurement is selected from a group consisting of a current, a voltage, a ratio of voltage and current and combinations thereof; and the first value of the dielectric constant further based on the amount of charge deposited on at least one electrode in the first pair of electrodes or a distance between the first pair of electrodes. 3. The downhole drilling system of claim 1 , wherein the sensor analysis system is further configured to determine a time-derivative associated with the first electrical pulse, the first value of the dielectric constant further based on the time-derivative. 4. The downhole drilling system of claim 1 , wherein the sensor analysis system is further configured to: perform an inversion on the first value of the dielectric constant to generate a resultant value of the dielectric constant based on a known value of the dielectric constant for the formation; determine a change value of the dielectric constant based on the resultant value of the dielectric constant and a second value of the dielectric constant, the second value based on a prior measurement associated with an electrical pulse that occurred before the first electrical pulse; and determine a direction for the drill bit during the pulsed drilling operation based on the change value. 5. The downhole drilling system of claim 1 , further comprising: a second sensor to record responses to a second electrical pulse during the pulsed drilling operation, wherein: the first pair of electrodes is associated with a first azimuthal location; the drill bit further includes a second pair of electrodes electrically coupled to the pulse-generating circuit to receive the second electrical pulse from the pulse-generating circuit and form a second electrical arc between the second pair of electrodes during the pulsed drilling operation, the second pair of electrodes associated with a second azimuthal location; and the sensor analysis system is communicatively coupled to the second sensor, the sensor analysis system configured to: obtain a second measurement from the second sensor, the second measurement representing the responses recorded by the second sensor during the pulsed drilling operation; determine a second value of the dielectric constant associated with another portion of the formation in proximity to the drill bit, the second value based on the second measurement; and perform a joint inversion on the first value of the dielectric constant and second value of the dielectric constant to generate a dielectric distribution around the drill bit. 6. The downhole drilling system of claim 1 , wherein the sensor analysis system is further configured to: obtain a measurement associated with a magnetic field from a magnetometer, the measurement representing a response to the magnetic field, the magnetic field generated by the first electrical arc formed between the first pair of electrodes during the pulsed drilling operation; and determine an average direction associated with the first electrical arc based on the measurement representing the response to the magnetic field. 7. The downhole drilling system of claim 1 , wherein the sensor analysis system is further configured to: determine whether the first value of the dielectric constant is less than a known value of the dielectric constant; and provide an indication to use a drilling fluid for the pulsed drilling operation based on the determination that the first value is less than the known value, wherein the dielectric constant of the drilling fluid is less than the first value of the dielectric constant. 8. A method, comprising: forming, by a drill bit, a first electrical arc between a first pair of electrodes by applying a first electrical pulse to the first pair of electrodes during a pulsed drilling operation; recording responses to the first electrical pulse during the pulsed drilling operation; generating an estimate of a dielectric constant; obtaining a first measurement representing the recorded responses; determining a measured value of a dielectric constant based on the first measurement; determining that the estimate of the dielectric constant and the measured value of the dielectric constant converge; and determining a first value of a dielectric constant associated with a portion of a formation in proximity to the drill bit based, at least in part, on the convergence. 9. The method of claim 8 , further comprising: determining an amount of charge deposited on the first pair of electrodes based on the first measurement, wherein: the first measurement is selected from a group consisting of currents, voltages, ratios of voltage and current and combinations thereof; and the first value of the dielectric constant further based on the amount of charge deposited on at least one electrode in the first pair of electrodes or a distance between the first pair of electrodes. 10. The method of claim 8 , further comprising determining a time-derivative associated with the first electrical pulse, the first value of the dielectric constant further based on the time-derivative. 11. The method of claim 8 , further comprising: performing an inversion on the first value of the dielectric constant; generating a resultant value of the dielectric constant based on a known value of the dielectric constant for the formation; determining a change value of the dielectric constant based on the resultant value of the dielectric constant and a second value of the dielectric constant, the second value based on a prior measurement associated with an electrical pulse that occurred before the first electrical pulse; and determining a direction for the drill bit during the pulsed drilling operation based on the change value. 12. The method of claim 8 , further comprising: forming, by the drill bit, a second electrical arc between a second pair of electrodes by applying a second electrical pulse to the second pair of electrodes during the pulsed drilling operation; recording responses to the second electrical pulse during the pulsed drilling operation; obtaining a second measurement representing the recorded responses to the second electrical pulse; determining a second value of the dielectric constant associated with the portion of the formation in proximity to the drill bit,