Conversion of RF signals to optical signals for passage through impairment mediums in a wireless communication network

I claim: 1. A wireless communication network comprising: a first communication point configured to transmit and receive first and second radio frequency (RF) signals; a second communication point configured to transmit and receive the first and second RF signals; an apparatus located between the first communication point and the second communication point, the apparatus being configured to receive the first and second RF signals and comprising: a first unit comprising: a first power supply; a first antenna configured to receive the first RF signals from the first communication point, the first RF signals being modulated with a first data payload; a first RF receiver coupled to the first antenna, wherein the first RF receiver is configured to convert the first data payload into a first modulating current; a first optical source coupled to the first RF receiver and to a first surface of an impairment medium, wherein the first optical source is configured to modulate first optical signals with the first modulating current and transmit the first optical signals through the impairment medium; a first optical receiver operatively coupled to the first surface of the impairment medium; and a first RF signal source operatively coupled to the first optical receiver and operatively coupled to the first antenna; and a second unit comprising: a second power supply; a second antenna configured to receive the second RF signals from the second communication point, the second RF signals being modulated with a second data payload; a second RF receiver coupled to the second antenna, wherein the second RF receiver is configured to convert the second data payload into a second modulating current; a second optical source coupled to the second RF receiver and to a second surface of the impairment medium, wherein the second optical source is configured to modulate second optical signals with the second modulating current and transmit the second optical signals through the impairment medium; a second optical receiver operatively coupled to the second surface of the impairment medium; and a second RF signal source operatively coupled to the second optical receiver and operatively coupled to the second antenna, wherein the second RF signal source is configured to receive the first optical signals from the second optical receiver, to convert the first optical signals to the first RF signals, and to transmit the first RF signals, wherein the apparatus is configured such that during operation of the apparatus the first optical receiver receives the second optical signals from the second optical source through the impairment medium and the second optical receiver receives the first optical signals from the first optical source through the impairment medium. 2. The wireless communication network of claim 1 , wherein: the first communication point comprises one of a base station, an access point, a mobile device, and a distributed antenna system; and the second communication point comprises one of a base station, an access point, a mobile device, and a distributed antenna system. 3. The wireless communication network of claim 1 , further comprising: a first amplifier operatively coupled to the first RF signal source and operatively coupled to the first antenna; and a second amplifier operatively coupled to the second RF signal source and operatively coupled to the second antenna. 4. The wireless communication network of claim 1 , wherein the first unit and the second unit each comprise multiple polarized antennas configured to handle polarized portions of RF signals, to replicate Multiple Input Multiple Output (MIMO) characteristics of a base station antenna system. 5. The wireless communication network of claim 1 , wherein at least one of the first antenna or the second antenna is configured as a distributed antenna system. 6. A method of propagating wireless signals within a wireless communication network, the method comprising: receiving, from a first point within the wireless communication network, a radio frequency (RF) signal at a first unit of a penetrator device within the wireless communication network; converting, by the first unit of the penetrator device, a data payload of the RF signal into a modulating current; modulating, by the first unit of the penetrator device, an optical signal with the modulating current; transmitting the optical signal from the first unit of the penetrator device through an impairment medium to a second unit of the penetrator device; converting, by the second unit of the penetrator device, the optical signal into a second RF signal; and transmitting, by the second unit of the penetrator device, the second RF signal to a second point within the wireless communication network. 7. The method of claim 6 , wherein: the first point comprises one of a base station, an access point, a mobile device, and a distributed antenna system; and the second point comprises one of a base station, an access point, a mobile device, and a distributed antenna system. 8. The method of claim 6 , further comprising: receiving electrical power at the second unit of the penetrator device; and providing at least a portion of the electrical power to the first unit of the penetrator device via an inductive coupling between the first unit and the second unit. 9. The method of claim 6 , wherein the impairment medium comprises a thermal pane window. 10. An apparatus configured to propagate wireless signals within a wireless communication network through an impairment medium, the apparatus comprising: a first unit comprising: a first power supply; a first antenna configured to receive first radio frequency (RF) signals; a first RF receiver coupled to the first antenna, wherein the first RF receiver is configured to convert a first data payload from the first RF signals into a first modulating current; a first optical source coupled to the first RF receiver and to a first surface of the impairment medium, wherein the first optical source is configured to modulate first optical signals with the first modulating current and to transmit the first optical signals through the impairment medium; a first optical receiver operatively coupled to the first surface of the impairment medium; and a first RF signal source operatively coupled to the first optical receiver and operatively coupled to the first antenna; and a second unit comprising: a second power supply; a second antenna configured to receive second radio frequency (RF) signals; a second RF receiver coupled to the second antenna, wherein the second RF receiver is configured to convert a second data payload from the second RF signals into a second modulating current; a second optical source coupled to the second RF receiver and to a second surface of the impairment medium, wherein the second optical source is configured to modulate second optical signals with the second modulating current and to transmit the second optical signals through the impairment medium; a second optical receiver operatively coupled to the second surface of the impairment medium; and a second RF signal source operatively coupled to the second optical receiver and operatively coupled to the second antenna, wherein the second RF signal source is configured to convert the first optical signals to the first RF signals and transmit the first RF signals, wherein the apparatus is configured such that during operation of the apparatus the first optical receiver receives the second optical signals from the second optical source through the impairment medium and the second optical receiver receives the first optical signals from the first optical source through the im