Sans Normal Lykur 11 is a very bold, wide, low contrast, italic, normal x-height font visually similar to 'Gezart' by Ani Dimitrova, 'Equip' by Hoftype, 'Fact' by ParaType, 'Geometrica' by PeGGO Fonts, and 'Gogh' by Type Forward (names referenced only for comparison).
Keywords: headlines, posters, branding, sportswear, packaging, sporty, punchy, confident, energetic, playful, impact, momentum, modernity, approachability, display, oblique, rounded, compact, chunky, high-impact.
A heavy, oblique sans with broad, rounded forms and tightly packed counters that create a dense, high-ink silhouette. Strokes stay largely uniform, with smooth curve transitions and blunt, slightly angled terminals that reinforce forward motion. The uppercase feels blocky and stable (notably in C/O/Q), while the lowercase keeps single-story construction and simplified joins that read clearly at display sizes. Numerals are similarly chunky and geometric, with strong circular bowls and minimal interior space.
Best suited to large-scale applications where impact matters: headlines, posters, athletic or streetwear branding, packaging, and promotional graphics. It can also work for short UI labels or signage when a forceful, energetic tone is desired, but its dense forms and tight texture make it less ideal for long passages of small text.
The overall tone is assertive and kinetic, with a sporty, headline-ready presence. Its rounded geometry keeps it approachable and slightly playful, while the strong slant and mass give it a bold, confident voice.
The design appears intended as a high-impact, forward-leaning display sans that reads quickly and projects momentum. Its rounded, geometric construction suggests an aim for modern versatility with a friendly edge, while the heavy weight and consistent slant target attention-grabbing titling and brand marks.
Spacing appears visually tight in text, emphasizing a compact, poster-like texture. The oblique angle is consistent across letters and figures, and the design favors simple, geometric shapes over calligraphic modulation.