↑ Terminology related to HF radio propagation

This page is part of the project "Understanding HF Propagation."
by Doron Tal, 4X4XM
 

Knowing the terminology used in HF radio propagation can help you understand long-distance communication via skywaves.

Find below a glossary of basic terms and an extended index of terms related to HF radio propagation:

A glossary of basic terms

    Waves and radio propagation

  1. Frequency (f) is the number of cycles of a radio wave that occur in one second, measured in hertz (Hz).
  2. Wavelength (λ) is the distance between two consecutive points in a wave, usually measured in meters (m).
    The relationship between wavelength and frequency is inverse, with higher frequencies corresponding to shorter wavelengths and vice versa.
  3. Groundwave propagation is the use of radio waves that travel along the earth's surface, providing communication over relatively short distances, typically up to a few hundred kilometers.
  4. Skywave propagation is the phenomenon in which HF radio waves are bounced back to earth's surface, via the ionosphere, allowing long-distance communication beyond the line of sight.
  5. The ionosphere is the region of the earth's upper atmosphere (approximately 50 to 800 kilometers above the ground) where ionization occurs due to solar radiation. This region plays a crucial role in HF radio propagation by bouncing radio waves back to Earth. The ionosphere is continuously changing due to natural storms, as explained below: A storm represents a disturbed state of the natural environment, characterized by significant disruptions to normal conditions. In this project, we specifically refer to:
    1. Solar storms occur on the sun.
    2. Space weather storms occur in the space between the sun and Earth.
    3. Geomagnetic storms (also known as magnetic storms) are temporary disturbances of the Earth's magnetosphere caused by a solar wind shock wave.
    4. Ionospheric storms involve varying densities of energized free electrons in the ionosphere due to geomagnetic storms.
      5. Understanding the dynamics of solar and space weather storms reveals the intricate relationship between our sun and Earth. Solar storms, originating on the sun, unleash powerful energy that travels through space, affecting not only the celestial environment but also our planet's magnetic field. When these solar winds encounter Earth's atmosphere, they can trigger geomagnetic storms, which are temporary disturbances that disrupt communication systems and power grids. Additionally, the presence of energized free electrons in the ionosphere gives rise to ionospheric storms, further complicating our technological landscape.
  6. Skip distance is the minimum distance from the transmitter for receiving skywaves, while blind, or dead zone, refers to the region with poor or nonexistent reception.
  7. MUF (Maximum Usable Frequency) is the highest frequency at which skywave propagation is reliably achievable between two points on earth during a specific time and under specific ionospheric conditions.
  8. LUF (Lowest Usable Frequency) is the lowest frequency at which skywave propagation can be used effectively.
  9. Fading (QSB) is the variation in signal strength and quality experienced during radio transmission due to changes in ionospheric conditions, interference, or other factors.
  10. The F-region is the upper region of the ionosphere that consists of two sub-regions, F1 and F2, and is the primary region for HF propagation. The F2 is particularly important for long-distance communication.
  11. The E-region is the middle region located below the F-region. It is responsible for sporadic E propagation, which can enable HF communication at higher frequencies.
  12. The D-region is the lowest region of the ionosphere, located at an altitude of approximately 48 to 90 kilometers. The D-region absorbs HF radio waves during daylight hours, affecting propagation.
  13. The ionosphere bounces a radio wave at vertical incidence below the critical frequency (fc), regardless of transmitter power.
  14. The Optimum Working Frequency (OWF) is the frequency that provides the best propagation conditions for a given HF communication path.
  15. The Solar Flux Index (SFI) is a measure of the sun's radio emissions at a specific wavelength (usually 10.7 cm). It is used as an indicator of solar activity, which affects ionospheric conditions and HF propagation.
  16. The A-index is a daily measure of geomagnetic activity on a scale from 0 to 400, with lower values indicating quieter geomagnetic conditions. Geomagnetic activity can disrupt HF propagation.
  17. The K-index represents short-term (3-hour) geomagnetic activity at a specific geomagnetic station. It quantifies disturbances in Earth’s horizontal magnetic field by comparing geomagnetic fluctuations, measured by a magnetometer, to a quiet day. The K-scale is logarithmic, a scale from 0 to 9.

Extended index of terms

A list of terms that are explained on this website:

    A
  1. A guide for radio hams
  2. A review of the propagation indices — A review of skywave propagation indicators
  3. A-Index
  4. Absorption of skywaves
  5. ACE - Advanced composition explorer
  6. ALE — Automatic link establishment
  7. Amateur radio
  8. Amateur radio bands
  9. Amateur radio propagation today
  10. Angle elevation/transmission
  11. Applications for analyzing and forecasting HF propagation
  12. Applications used for forecasts and predictions (references)
  13. Aurora
  14. At what Kp index can I see aurora?
    B
  15. Band conditions
  16. Band conditions banners
  17. Band Opennings
  18. Beacons
  19. Benefits of the HAARP Project for Radio Hams
  20. Beyond line of site (BLOS)
  21. Blackouts; R1-5 scale
  22. Blind zone
  23. BLOS (Beyond line of site)
  24. Bt - total strength of the Interplanetary Magnetic field (IMF)
  25. Bz - orientation of the IMF
    C
  26. Carrington event
  27. ChatGPT learns about forecasting tools for radio amateurs
  28. Chirping
  29. Clouds of plasma in the ionosphere
  30. CME - coronal Mass ejection
  31. Compare DR2W propagation tool with VOACAP
  32. Compare forecasting tools for HF radio propagation
  33. Compare forecasting tools for radio amateurs
  34. Communication conditions
  35. Complex HF propagation Modes
  36. Conductive ground
  37. Coronal Mass ejection (CME)
  38. Current band conditions
  39. Current Ham radio conditions
  40. Current HF band conditions maps for radio operators
  41. Current HF band conditions online map
  42. Current HF propagation
  43. Current HF propagation conditions
  44. Current HF radio propagation
  45. Current propagation conditions
  46. Current shortwave propagation conditions
  47. Current solar activity
  48. Current solar events
  49. Critical frequency
  50. Critical frequencies concept
  51. Critical frequency map
  52. D-region
  53. Dead zone
  54. Digisonde directogram
  55. Direct wave propagation (LOS - Line Of Site)
  56. DX clusters DX Spots
    D
  57. DX propagation map
  58. DX propagation online map
  59. DX propagation prediction
  60. DXMAPS
  61. DXWatch
  62. DXZone
    E
  63. E-region
  64. Earth's magnetic field
  65. Earth's Magnetosphere
  66. Earth Magnetosphere vs Earth's magnetic field
  67. Earth observing system (EOS)
  68. Earth's magnetic field
  69. Effects of solar activity on amateur radio
  70. Electron densities
  71. Electron flux (Ef)
  72. Electromagnetic Radiation
  73. Electromagnetic Spectrum
  74. Electromagnetic Wave
  75. Electromagnetic Spectrum
  76. Electromagnetic Radiation
  77. Electromagnetic Wave
  78. Elevation Angle
  79. EME Deg - earth-Moon-Earth Degradation
  80. EsEU - Sporadic e europe
  81. EsNA - Sporadic e North America
  82. EUV sunlight
    F
  83. FAQ about HF propagation
  84. FAQ: Current HF propagation conditions
  85. F10.7
  86. F-region
  87. Flare
  88. foF2 - critical frequency
  89. foF2 map
  90. Forecast HF propagation conditions
  91. Forecast HF radio propagation - applications
  92. Forecast propagation
  93. Forecast propagation for radio amateurs
  94. Forecast vs prediction of HF band conditions
  95. Forecasting HF propagation for radio amateurs
  96. Forecasting MUF for a 3000 km path
  97. Forecasting tools for radio amateurs
  98. Free Electron Density
    G
  99. G1-G5 - scale of Geomagnetic storms
  100. Gamma rays
  101. Gama rays bursts (GRB)
  102. GRB - Gama-rays bursts
  103. "GeoMag" (index) - earth`s geomagnetic field activity
  104. Geomagnetic
  105. Geomagnetic activity | What is Geomagnetic activity
  106. Geomagnetic conditions
  107. Geomagnetic data
  108. Geomagnetic field activity
  109. Geomagnetic indices K, A
  110. Geomagnetic storms and HF communications
  111. Geomagnetic storms; G1-5 scale
  112. Global conditions
  113. Global HF propagation
  114. Global radio propagation conditions
  115. Greyline
  116. Greyline radio propagation explained
  117. Greyline vs "Solar Terminator"
  118. Ground wave
  119. Ground wave propagation
  120. Ground waves
    H
  121. Hale cycle
  122. Ham bands' activity
  123. Ham propagation map
  124. Ham radio HF propagation (real-time)
  125. Ham radio propagation conditions
  126. Ham radio propagation tutorial
  127. Ham Radio Range Guide: How Far Can You Talk?
  128. Ham solar
  129. Helium lines
  130. HF bands allocated for radio amateurs
  131. HF bands allocated for radio amateurs and their characteristics
  132. HF band conditions
  133. HF band conditions maps
  134. HF bands Info affected by solar conditions
  135. HF bands Monitoring
  136. HF conditions
  137. HF propagation
  138. HF propagation app
  139. HF propagation blackout
  140. HF propagation calculator
  141. HF propagation chart
  142. HF propagation conditions
  143. HF propagation conditions at a glance
  144. HF propagation experts
  145. HF propagation explained
  146. HF propagation explanation
  147. HF propagation fadeouts
  148. HF propagation for beginners and advanced
  149. HF propagation for radio amateurs
  150. HF propagation for radio hams
  151. HF propagation forecast for radio amateurs
  152. HF propagation forecast tools
  153. HF Propagation Forecasting
  154. HF propagation: fundamentals
  155. HF propagation live map
  156. HF propagation map
  157. HF propagation models
  158. HF propagation modes
  159. HF propagation online map
  160. HF propagation overview
  161. HF propagation now (real-time)
  162. HF propagation predictions
  163. HF propagation prediction online
  164. HF propagation prediction software
  165. HF propagation preface
  166. HF propagation reporter
  167. HF propagation Status
  168. HF propagation — The basics
  169. HF Propagation Today
  170. HF Propagation Tools
  171. HF radio propagation indices and scales
  172. HF radio propagation prediction
  173. HF radio propagation tutorial for radio amateurs
  174. HF propagation widget
  175. HF radio conditions
  176. HF radio propagation
  177. HF signals propagation
  178. HF skywave window: LUF—MUF
  179. HF radio propagation forecast
  180. HF radio propagation today
  181. HF radio wave propagation
  182. HF radio waves (basics)
  183. HF radio wave propagation factors
  184. HF radio propagation prediction
  185. HF Skywave propagation for radio amateurs
  186. HF wave propagation
  187. HFTA - High frequency Terrain Assessment
  188. Helium lines
  189. High frequency
  190. Highest Possible Frequency (HPF)
  191. HPF—Highest Possible Frequency

    192. I
  192. IMF - Interplanetary Magnetic field
  193. Impacts of space weather
  194. Incident angle
  195. Interplanetary Magnetic field (IMF)
  196. Introduction to HF propagation
  197. Ionisation
  198. Ionization
  199. Ionogram
  200. Ionosonde
  201. Ionosphere
  202. Ionosphere and HF radio propagation
  203. Ionosphere propagation of radio waves
  204. Ionosphere regions
  205. Ionosphere, radio waves
  206. Ionosphere probing
  207. Ionosphere regions
  208. Ionospheric absorption in particular within D-region
  209. Ionospheric bubbles
  210. Ionospheric clouds
  211. Ionospheric conditions
  212. Ionospheric data
  213. Ionospheric disturbances
  214. Ionospheric irregularities
  215. Ionospheric propagation
  216. Ionospheric refraction
  217. Ionospheric regions
  218. Ionospheric skywave propagation
  219. Ionospheric storms
  220. IRI ionospheric model
  221. ITU model
    K
  222. K-Index
  223. Key concepts of HF propagation
  224. Key Factors Affecting HF Propagation
  225. Kp index
  226. KiwiSDR map of remote public SDR receivers accessible via the Internet
    L
  227. Lagrange points
  228. Learning about space weather
  229. Line-Of-Sight propagation (LOS)
  230. Live HF propagation map
  231. Long-distance communication
  232. Live solar events and past solar activity
  233. LOS
  234. LOS - Line of sight propagation
  235. LUF - Lowest Usable frequency
  236. LUF Chart - The Lowest Usable frequency map
    M
  237. Magnetic field
  238. Magnetosphere (MS)
  239. Maximum usable frequency (MUF)
  240. Maximum usable frequency map
  241. Minimum usable frequency map
  242. Modes of HF radio propagation
  243. Modes of radio propagation
  244. Monitor band activity of radio amateurs
  245. Monitring HF propagation
  246. MS — Meteor Scatter Activity
  247. MUF — Maximum Usable frequency
  248. MUF Indicators
  249. MUF How what, why?
  250. MUF factor
  251. MUF map
  252. MUF propagation map by KC2G for a 3,000 km hop
  253. MUF propagation online map
    N
  254. Near real-time regional maps
  255. NET ionospheric model
  256. NOAA National Oceanic and Atmospheric Administration
  257. Noise level
  258. NVIS
  259. NVIS map
  260. NVIS propagation
  261. NVIS propagation concept
  262. NVIS tutorial
    O
  263. Observations - Terrestrial & Solar
  264. On-Line HF propagation prediction
  265. Online propagation tools
  266. Online real-time propagation charts
  267. Optimal Sending frequency
  268. OWF - Optimum Working frequency
    P
  269. Past solar activity
  270. PCA—polar cap absorption
  271. Plasma
  272. Plasma clouds
  273. Polar cap absorption (PCA)
  274. Practical applications
  275. Predict conditions
  276. Predict HF radio propagation
  277. Predict MUF
  278. Predict propagation
  279. Predict skywave propagation now
  280. Predict sunspot numbers
  281. Prediction of sky-wave propagation conditions
  282. Predicting propagation
  283. Prediction vs forecast of HF band conditions
  284. Propagation conditions
  285. Propagation DX
  286. Propagation factors and conditions
  287. Propagation forecast
  288. Propagation indices single: propagation index
  289. Propagation modes
  290. Propagation of high frequency radio waves
  291. Propagation of HF radio waves - Global conditions and Regional conditions
  292. Propagation of shortwave radio
  293. Proton flux
  294. Propagation | modes of HF radio propagation
  295. Propagation forecast
  296. propagation of high frequency radio waves | the rebirth of hf
  297. Propagation of radio waves explained
  298. Propagation prediction
  299. Propagation prediction programs and forecasts
  300. Proton flux (Pf)
  301. PSKR - PSK reporter
    Q
  302. Quick guide to HF propagation using solar indices
    R
  303. Radio Amateur
  304. Radio amateurs HF bands charactaristics
  305. Radio blackouts / fadeouts; R1-5 scale
  306. Radio frequency
  307. Radio propagation
  308. Radio propagation beacon
  309. Radio propagation forecast
  310. Radio propagation free software
  311. Radio propagation online tools
  312. Radio propagation properties
  313. Radio propagation software
  314. Radio propagation tool
  315. Radio propagation tutorial
  316. Radio wave propagation in the ionosphere
  317. Radio spectrum
  318. Radio waves
  319. Radio waves propagation
  320. Radio wave propagation model
  321. Radio-wave HF propagation models
  322. Radio-wave propagation modes
  323. Ray tracing (Optics)
  324. RBN - Reverse beacon Network
  325. Real-time activity of radio amateurs
  326. Real-time band conditions
  327. Real-time DX data
  328. Real-time DX propagation conditions
  329. Real-time HF band conditions
  330. Real-Time hf propagation charts
  331. Real-time HF propagation prediction
  332. Ham radio HF propagation real-time
  333. Real-time HF propagation reports
  334. Real-time ham band activity using the internet
  335. Real-time MUF 3000 km propagation map
  336. Real-Time MUF and solar indices
  337. Real-time MUF map
  338. Real-time propagation and band conditions
  339. Real-time radio propagation reports
  340. Real-time reports of HF propagation
  341. Real-time reports of radio propagation
  342. Real-time reports of space weather
  343. Real-time space weather reports
  344. Real-time watching of worldwide hams' activity
  345. Real-time watching of worldwide ham activity
  346. Recent geophysical & solar observations
  347. Recent MUF distribution
  348. Recent observations - Geo (Terrestrial) & Solar
  349. Recent sunspot number
  350. Regional conditions
  351. Regional HF conditions
  352. Regional MUF and solar indices
  353. Regional vs Global HF propgation conditions
  354. Regional vs Global propgation conditions
  355. Regions of ionization
  356. Region vs. Layer: Earth's Atmosphere and Ionosphere
  357. Remote sensing of the ionosphere
  358. Reports of space weather
  359. RSG scales of Space Weather
    S
  360. Satellites for space weather observations
  361. SDO - Solar Dynamic Obervatory (NASA)
  362. SDR - Software Defined radio
  363. SDR spectrum
  364. Seasonal variations in HF radio propagation
  365. Seasons affect HF radio propagation
  366. SEP
  367. SFI - Solar flux Index
  368. Shortwave propagation
  369. Shortwave propagation conditions
  370. Shortwave propagation forecast
  371. Shortwave radio propagation
  372. SID - Sudden ionospheric disturbances
  373. Significant frequencies relevant to skywaves
  374. Skip distance
  375. Skip zone
  376. Skywave
  377. Skywave HF radio propagation
  378. Skywave propagation
  379. Skywave propagation concept
  380. Skywave propagation conditions
  381. Skywave propagation for radio amateurs
  382. Skywave propagation forecast
  383. Skywave propagation tutorial
  384. Software for HF propagation prediction
  385. Solar activity
  386. Solar Activity & Ham radio propagation
  387. Solar activity affects HF propagation
  388. Solar activity affects skywaves
  389. Solar activity for radio amateurs
  390. Solar conditions affect HF radio propagation
  391. Solar conditions and HF radio propagation
  392. Solar cycle
  393. Solar Cycle Ham Radio
  394. Solar data
  395. Solar electromagnetic spectrum
  396. Solar events
  397. Solar energetic Particle (SEP)
  398. Solar events
  399. Solar flares
  400. Solar flux index (SFI)
  401. Solar flux today
  402. Solar Ham
  403. Solar indices
  404. Solar observations
  405. Solar maximum
  406. Solar minimum
  407. Solar Particle event (SPE)
  408. Solar phenomena
  409. Solar radiation
  410. Solar radiation storms (flares); S1-5 scale
  411. Solar radio flux
  412. Solar spectra
  413. Solar storms
  414. Solar Storms Ham Radio
  415. Solar synoptic map
  416. Solar terminator (i.e. Greyline)
  417. Solar wind; The impact of the solar wind on HF radio transmission.
  418. Solar wind reports
  419. Solar X-Ray (Phenomenon)
  420. Solar X-ray Imaging system (SXI)
  421. Solar X-Ray flux levels
  422. Space wave
  423. Space Weather
  424. Space weather data and plots
  425. Space weather definitions and explanations
  426. Space weather events
  427. Space weather forecasts
  428. Space weather ground-based observatories
  429. Space weather observations
  430. Space weather observations from satellites
  431. Space weather prediction
  432. Space weather prediction center (NOAA)
  433. Space Weather predictions for radio amateurs
  434. Space weather reports
  435. Space weather scales
  436. SPE
  437. Spread F
  438. Sudden ionospheric disturbances
  439. Sunspots
  440. SuperDARN
  441. SWPC = Space Weather prediction center (NOAA)
  442. Sporadic e
  443. Stratosphere
  444. Sudden ionospheric disturbances (SID)
  445. Sunlight
  446. Sunspots
  447. Sunspot cycle
  448. Sunspot number (SSN)
  449. Sunspots recent days
  450. Sunspots today
  451. Surface wave propagation
  452. Space Weather prediction center (NOAA)
    T
  453. T Index map
  454. TEC - Total electron content
  455. Terminator line
  456. Terrestrial geomagnetic indices
  457. Terrestrial observations
  458. The Rebirth of Shortwave radio communication
  459. The recent HF propagation conditions
  460. The recent propagation conditions
  461. The recent skywave propagation conditions
  462. The Super Dual Auroral Radar Network (SuperDARN)
  463. Thermosphere
  464. TID (Traveling ionospheric disturbances)
  465. Tools for analyzing and forecasting HF propagation
  466. Total electron content — TEC
  467. Transmission Angle
  468. Traveling ionospheric disturbances (TID)
  469. Troposphere
  470. Twilight zone
    U
  471. Ultraviolet
  472. Understanding Ham bands conditions banner
  473. Understanding Ham radio propagation
  474. Understanding HF propagation
  475. Understanding HF Propagation
  476. Understanding HF propagation Numbers
  477. Understanding HF radio propagation
  478. Understanding LUF and MUF
  479. Understanding NVIS
  480. Understanding Skywave propagation
  481. Understanding the basics of HF band conditions
  482. Usable Frequency Range from LUF to MUF
  483. Usable HF frequencies
  484. Using HF beacon tracking programs
    V
  485. Variations in HF radio propagation
  486. Very High frequency (VHF)
  487. Very Low frequency (VLF)
  488. VHF propagation map
  489. View HF bands conditions at a glance
  490. Visualizing HF propagation
  491. VOACAP
    W
  492. Wave propagation
  493. What is Radio?
  494. What is Space weather?
  495. What is the current LUF?
  496. What is the current minimum useable frequency?
  497. What is the current Maximum Frequency?
  498. What is the current MUF?
  499. Wide-band WebSDR
  500. Window of useful frequencies from LUF to MUF
  501. World-wide Space Weather agencies & services
  502. Worldwide LUF Chart
  503. WSPR - Weak Signal propagation reporter * WSPR Live * WSPR Rocks * WSPRnet
    X
  504. X-Ray flares
  505. X-Ray flux levels (scale)
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