Flame detector for monitoring a region adjacent to bodies of water and taking into consideration a degree of polarization present in the received light for the activation of a fire alarm

What is claimed is: 1. A flame detector aligned to cover a region to be monitored near a body of water, the flame detector having a main receiving direction for receiving light, and comprising: at least one pyrosensor sensitive to light in the spectrum of open fire, a housing with a light-transmissive protective screen, wherein the at least one pyrosensor is arranged optically behind the protective screen, a downstream evaluation unit configured to output fire alarm information in response to detecting fluctuations or flicker frequencies characteristic of open fire, and a linear polarizing filter positioned upstream of the at least one pyrosensor and having a polarization plane rotated about the main receiving direction of the flame detector to suppress a horizontal component of light received at the flame detector. 2. The flame detector of claim 1 , comprising a spectral filter, wherein the spectral filter is positioned upstream of the respective pyrosensor or included as a component of a respective pyrosensor. 3. The flame detector of claim 1 , wherein the polarizing filter is arranged in front of the protective screen, on the protective screen, between the protective screen and the respective pyrosensor, or on the respective pyrosensor. 4. A flame detector aligned to cover a region to be monitored near a body of water, the flame detector comprising: a first radiation sensor and a second radiation sensor, each sensitive to light in the spectrum of open fire, a downstream evaluation unit configured to output fire alarm information in response to detecting fluctuations or flicker frequencies characteristic of open fire, at least one filter arrangement chosen from the group consisting of: a horizontal polarizing filter positioned upstream of the first radiation sensor only, to thereby suppress mainly a vertical component of light reflected off the body of water, or a vertical polarizing filter positioned upstream of the second radiation sensor only, to thereby suppress mainly a horizontal component of light reflected off the body of water, or a horizontal polarizing filter positioned upstream of the first radiation sensor and a vertical polarizing filter positioned upstream of the second radiation sensor, a housing with a light-transmissive protective screen, wherein a respective radiation sensor is arranged optically behind the protective screen, and wherein the downstream evaluation unit is configured to: determine a degree of polarization of the vertical component of received light based on sensor signals from both the first and second radiation sensors, and to generate the fire alarm information based at least on the determined degree of polarization of the vertical component of the received light. 5. The flame detector of claim 4 , wherein a respective polarizing filter is arranged in front of the protective screen, on the protective screen, between the protective screen and the respective radiation sensor, or on the respective radiation sensor. 6. The flame detector of claim 4 , comprising an electrically switchable polarizing filter positioned upstream of at least one of the radiation sensors and configured to adjust two polarization planes orthogonal to one another. 7. The flame detector of claim 4 , wherein the downstream evaluation unit is configured to: output the fire alarm information if the degree of polarization is in a range from 0.4 to 0.6, or output a warning message if the degree of polarization is greater than 0.6 or less than 0.4. 8. The flame detector of claim 7 , wherein the warning message comprises an indicator of potential open fire, wherein the warning message further indicates whether the potential open fire is reflected off of vertical or horizontal reflecting surfaces. 9. The flame detector of claim 4 , comprising a spectral filter, wherein the spectral filter is positioned upstream of a respective radiation sensor or wherein the spectral filter is included in a respective radiation sensor. 10. The flame detector of claim 4 , wherein the downstream evaluation unit is configured to output the fire alarm information if the degree of polarization is in a range from 0.45 to 0.55. 11. The flame detector of claim 4 , wherein the downstream evaluation unit is configured to output a warning message if the degree of polarization is greater than 0.8 or less than 0.2. 12. A flame detector aligned to cover a region to be monitored near a body of water, the flame detector comprising: at least one radiation sensor sensitive to light in the spectrum of open fire, a downstream evaluation unit configured to output fire alarm information in response to detecting fluctuations or flicker frequencies characteristic of open fire, an optoelectronic component including: two photodiodes comprising two upstream linear polarizing filters orthogonal to one another; and internal measurement and evaluation electronics configured to determine a degree of polarization of received light from the region to be monitored or a polarization direction and to provide the degree of polarization or the polarization direction to the downstream evaluation unit, and wherein the downstream evaluation unit is configured to generate the alarm information based at least on the determined degree of polarization of the received light. 13. A method for controlling a fire alarm activation in the case of optical flame detection of characteristic fluctuations or flicker frequencies of open fire, the method comprising: receiving sensor signals from at least one pyrosensor sensitive to light in the spectrum of open fire; the at least one pyrosensor disposed optically behind a light-transmissive protective screen and a linear polarizing filter having a polarization plane rotated about a main receiving direction to suppress a horizontal component of light received at the at least one pyrosensor; detecting fluctuations or flicker frequencies characteristic of open fire at a downstream evaluation unit, based on the sensor signals; determining a degree of polarization based on the sensor signals; determining whether to generate a fire alarm based on the determined degree of polarization.