Getting Glasses Isn't Just About Your Prescription – A Complete Guide to Lens Refractive Index and Coatings
- Published on
When getting glasses, salespeople always say "higher refractive index is better" and "pay extra for coatings for clearer vision." But in reality, a high refractive index isn't right for everyone, and coatings can be genuine or fake. This guide helps you understand lens specs and avoid unnecessary spending.
1. Refractive Index: What a Higher Number Really Means
The Essence of Refractive Index
The lens refractive index determines how thick the lens will be for the same optical power.
Simply put:
- Higher refractive index → stronger ability to bend light → thinner lenses for the same prescription
- But higher refractive index → more chromatic aberration → increased image distortion
Common Refractive Index Comparison
| Refractive Index | Thickness | Suitable Prescription | Characteristics |
|---|---|---|---|
| 1.50 | Standard | Under -6.00 D | Lowest cost |
| 1.56 | Thinner | Under -8.00 D | Good value |
| 1.60 | Thin | Under -10.00 D | Mainstream choice |
| 1.67 | Very thin | Under -12.00 D | Recommended for high prescriptions |
| 1.74 | Ultra-thin | Over -12.00 D | Only worthwhile for very high prescriptions |
How to Choose Refractive Index
Under -6.00 D:
- 1.56 is already thin enough
- 1.60 is an unnecessary expense
- 1.74 is a complete waste of money
-6.00 D to -10.00 D:
- 1.60 is a reasonable choice
- 1.67 looks better but has a noticeable price premium
Over -10.00 D:
- 1.67 is a basic requirement
- 1.74 is genuinely valuable
Uneven Prescription (large difference between eyes):
- It's recommended to choose the higher refractive index for both lenses
- Otherwise, the thickness difference between the two lenses will be obvious
2. Abbe Number: Measuring Chromatic Aberration
What is Abbe Number
The Abbe Number measures a lens's chromatic dispersion:
- Higher number → less dispersion → clearer, more accurate vision
- Lower number → more dispersion → possible colored fringing (chromatic aberration) at edges
Relationship Between Refractive Index and Abbe Number (Typical Values for Resin Lenses):
| Refractive Index | Typical Abbe Number |
|---|---|
| 1.50 | 58 |
| 1.56 | 36-38 |
| 1.60 | 36-42 |
| 1.67 | 32 |
| 1.74 | 33 |
Note: The Abbe Number for 1.56 refractive index is actually lower than for 1.50, meaning its optical quality is generally poorer.
Practical Impact
With lenses that have a low Abbe Number, you might see colored fringing around high-contrast edges like curtain edges or window frames.
- Low prescription (under -4.00 D): Abbe Number effect is not noticeable
- High prescription (over -8.00 D): Low Abbe Number makes chromatic aberration more apparent
3. Coatings: Understanding the Add-Ons
Essential Coatings
Anti-Reflective (AR) Coating:
- Reduces reflected light from the lens surface
- Improves light transmission
- Present on almost all legitimate lenses
- This is a basic feature, not an extra charge item
Anti-Smudge Coating:
- Reduces fingerprint and oil adhesion
- Good anti-smudge coatings clean easily with one wipe
- Poor anti-smudge coatings require repeated wiping
Optional Coatings
Blue Light Blocking Coating:
- Blocks some high-energy blue light (380-500nm range)
- Lenses have a slight yellow tint (because blue light is filtered out)
- Actual effectiveness is controversial:
- Screen blue light intensity is far lower than sunlight
- Evidence for blue light blocking affecting sleep is insufficient
- Mainly recommended for people who stare at screens for long periods and feel eye strain
Photochromic Lenses:
- Transparent indoors, darken outdoors
- Principle: Contains silver halide compounds that change color when exposed to UV light
- Disadvantages:
- Car windshields filter UV light, so darkening effect is poor while driving
- Darkening speed decreases with temperature (slower in winter)
- Darkening effect weakens with long-term use
Polarized Lenses:
- Filters reflected light (polarized light) in a specific direction
- Very effective at reducing road glare while driving
- Allows you to see underwater when fishing
- Mainly suitable for sunglasses, not everyday glasses
Coating Quality Identification
Hardness Test (not recommended to perform yourself; ask the seller):
- Good coatings have a hardness of 6H or higher
- Poor coatings scratch easily
Reflection Color:
- High-quality AR coatings reflect green or blue-green light
- This is a normal phenomenon of the coating process
- It's not a problem; it's a hallmark
4. Lens Materials
Resin Lenses (Mainstream)
- Low density, lightweight
- Can be tinted, suitable for sunglasses
- Good impact resistance
- Not heat-resistant (can deform in a hot car)
- Not chemical-resistant (alcohol can damage the coating)
Glass Lenses
- High hardness, scratch-resistant
- Fewer refractive index options
- Heavy weight
- Safety risk if broken
- Now almost obsolete
Polycarbonate (PC) Lenses
- Extremely high impact toughness (commonly used for children's and sports glasses)
- Refractive index of 1.59
- Low Abbe Number (around 29), high chromatic aberration
- Not suitable for high myopia prescriptions
5. Progressive Lenses
Who Needs Them
People over 40 who start developing presbyopia while also having myopia or needing to see both far and near are suitable for progressive lenses.
Progressive Zone Layout
Top: Distance zone (for seeing far away)
Middle: Transition zone (intermediate distance)
Bottom: Near zone (for reading)
Sides: Distortion zone (blurry)
Adaptation Period for Progressives
- First-time wearers need 1-2 weeks to adapt
- You need to learn to move your head to use different zones
- When going downstairs, looking at your feet can put you in the distortion zone, which is dangerous initially
Internal vs. External Progressives
- External progressive (front surface): Traditional process, lower cost
- Internal progressive (back surface): Closer to the eye, less distortion, wider field of view, higher price
6. Frame Impact on Lenses
Pupillary Distance (PD) and Optical Center
The distance between your eyes (PD) varies per person, and the optical center of the lens must align with your pupil.
Consequences of an off-center optical center:
- Creates a prism effect
- Long-term wear leads to eye strain and headaches
- In severe cases, affects vision development (in children)
Ask the store for the PD measurement record from your fitting
Frame Size and Thickness
The larger the frame, the thicker the lens edge (especially for myopia):
- For the same prescription, small-frame lenses are much thinner than large-frame ones
- For high prescriptions (over -10.00 D), small frames are especially recommended
- Popular large round frames are very unfriendly to high prescriptions
7. Buying Pitfalls to Avoid
Price Traps:
- Frames and lenses are usually priced separately
- Ask clearly if the price includes coatings and what kind
- Ask about the refractive index and brand origin
Special Considerations for Children's Lenses:
- Prioritize PC material (high impact toughness)
- Don't chase the thinnest option (prescriptions are usually not very high yet)
- Get regular prescription checks (every six months to a year)
Online Glasses Ordering:
- After getting an eye exam at a physical store, you can order lenses with the same specs online
- However, progressive lenses and high-prescription lenses are better ordered from a physical store
- You need accurate PD data
8. Summary
Refractive Index Choice:
- Under -6.00 D: 1.56 is sufficient
- -6.00 D to -10.00 D: 1.60 is suitable
- Over -10.00 D: 1.67
Coating Priorities:
- AR coating is essential; anti-smudge coating is a must-have
- Blue light blocking is optional, not mandatory
- Don't be fooled by "multi-layer coating" – ask specifically what coatings are included
Other:
- Small frames are much better for high prescriptions than large frames
- Ensure accurate PD measurement during fitting
- If you feel discomfort or dizziness after getting your glasses, get them rechecked promptly